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The method signature of a Java main method is:

public static void main(String[] args){
    ...
}

Is there a reason for this method to be static?

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31 Answers 31

up vote 165 down vote accepted

The method is static because otherwise there would be ambiguity: which constructor should be called? Especially if your class looks like this:

public class JavaClass{
  protected JavaClass(int x){}
  public void main(String[] args){
  }
}

Should the JVM call new JavaClass(int)? What should it pass for x?

If not, should the JVM instantiate JavaClass without running any constructor method? I think it shouldn't, because that will special-case your entire class - sometimes you have an instance that hasn't been initialized, and you have to check for it in every method that could be called.

There are just too many edge cases and ambiguities for it to make sense for the JVM to have to instantiate a class before the entry point is called. That's why main is static.

I have no idea why main is always marked public though.

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3  
Implementing an interface does not solve the instantiation problem. –  Jacob Krall Nov 15 '11 at 18:59
9  
I personally like that public static void main serves as a marker of an entry point – a public parameterless constructor doesn't scream out "This is probably an entry point!" in the same way. –  Jacob Krall May 12 '12 at 16:58
1  
@EdwinDalorzo - What would be gained by forcing the entry point class to be instantiated? Calling a static method places the least amount of burden on the class. It's free to instantiate itself if that makes more sense for your design. –  David Harkness Jul 14 '12 at 19:48
9  
“which constructor should be called?” How is that even conceivably a problem? The same “problem” exists for the decision which main to call. Weirdly enough (for you), the JVM manages this just fine. –  Konrad Rudolph Jul 17 '12 at 19:50
up vote 175 down vote
+500

This is just convention. In fact, even the name main(), and the arguments passed in are purely convention.

When you run java.exe (or javaw.exe on Windows), what is really happening is a couple of Java Native Interface (JNI) calls. These calls load the DLL that is really the JVM (that's right - java.exe is NOT the JVM). JNI is the tool that we use when we have to bridge between the virtual machine world, and the world of C, C++, etc... The reverse is also true - it is not possible (at least to my knowledge) to actually get a JVM running without using JNI.

Basically, java.exe is a super simple C application that parses the command line, creates a new String array in the JVM to hold those arguments, parses out the class name that you specified as containing main(), uses JNI calls to find the main() method itself, then invokes the main() method, passing in the newly created string array as a parameter. This is very, very much like what you do when you use reflection from Java - it just uses confusingly named native function calls instead.

It would be perfectly legal for you to write your own version of java.exe (the source is distributed with the JDK), and have it do something entirely different. In fact, that's exactly what we do with all of our Java based apps.

Each of our Java apps has its own launcher. We primarily do this so we get our own icon and process name, but it has come in handy in other situations where we want to do something besides the regular main() call to get things going (For example, in one case we are doing COM interoperability, and we actually pass a COM handle into main() instead of a string array).

So, long and short: the reason it is static is b/c that's convenient. The reason it's called 'main' is because it had to be something, and main() is what they did in the old days of C (and in those days, the name of the function was important). I suppose that java.exe could have allowed you to just specify a fully qualified main method name, instead of just the class (java com.myompany.Foo.someSpecialMain) - but that just makes it harder on IDEs to auto-detect the 'launchable' classes in a project.

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26  
+1: Very fascinating (especially the part about writing a custom java.exe) –  Adam Paynter May 1 '11 at 9:15
4  
Interesting, I do disagree with the "This is just convention." Part of the answer. The OP's primary question was the reason for static in the declaration. I don't think static in the main() declaration is just for the sake of convention. The fact that it's `main()' and not something else is feasible however. –  Jared Jul 15 '12 at 1:15
1  
@David So it did. I actually would have preferred an answer from one of the people originally involved – but that was a very far shot. Most of the other answers are unfortunately an exercise in ad-hoc reasoning. This one gives quite interesting details, besides having the humility not to invent wrong technical details to reason away a (probably) non-technical cause. –  Konrad Rudolph Jul 17 '12 at 19:45
1  
Thank you for sharing your insights. This is the sort of explanation that allows you to make a leap into understanding how something works. Much appreciated. –  James Poulson Aug 8 '12 at 8:32
3  
@BenVoigt You call LoadLibrary() to get the jvm dll. Then you call getprocaddress("JNI_CreateJavaVM"), then you invoke the JNI_CreateJavaVM function (docs.oracle.com/javase/1.4.2/docs/guide/jni/spec/… ). Once the VM is loaded you use standard JNI calls to find the correct class, load the static main method and invoke it. There's not a lot of room for misinterpretation there. JNI is absolutely how you load the VM. You may be used to writing only client side JNI using the native keyword, javah -jni, etc... but that's only half of JNI. –  Kevin Day Dec 5 '12 at 4:04

The main() method in C++, C# and Java are static because they can then be invoked by the runtime engine without having to instantiate an instance of the parent class.

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7  
How would the JVM know which constructor to call, if your main class had overloaded constructors? What parameters would it pass? –  Jacob Krall Sep 29 '08 at 22:41
1  
@Noah when you say parent class do you mean the class containing the main method? Because if so, the term "parent class" is rather confusing here, and otherwise it would make no sense to me. Also, if by convention we use public static void main..., why couldn't the convention be that the application entry point class should have a public default constructor? –  Edwin Dalorzo May 12 '12 at 11:48
2  
@Jacob How would the JVM know which overloaded static void main to call? Not a problem at all. –  Konrad Rudolph Jul 16 '12 at 22:00
1  
@Namratha: Yes, you're missing something. It's just not true that "static method cannot reference non-static method". The correct statement is: "Every static method must provide an object when using any non-static method". And look, static methods such as main frequently use new to create such an object. –  Ben Voigt Dec 4 '12 at 0:12

Why public static void main(String[] args) ?

This is how Java Language is designed and Java Virtual Machine is designed and written.

Oracle Java Language Specification

Check out Chapter 12 Execution - Section 12.1.4 Invoke Test.main:

Finally, after completion of the initialization for class Test (during which other consequential loading, linking, and initializing may have occurred), the method main of Test is invoked.

The method main must be declared public, static, and void. It must accept a single argument that is an array of strings. This method can be declared as either

public static void main(String[] args)

or

public static void main(String... args)

Oracle Java Virtual Machine Specification

Check out Chapter 2 Java Programming Language Concepts - Section 2.17 Execution:

The Java virtual machine starts execution by invoking the method main of some specified class and passing it a single argument, which is an array of strings. This causes the specified class to be loaded (§2.17.2), linked (§2.17.3) to other types that it uses, and initialized (§2.17.4). The method main must be declared public, static, and void.

Oracle OpenJDK Source

Download and extract the source jar and see how JVM is written, check out ../launcher/java.c, which contains native C code behind command java [-options] class [args...]:

/*
 * Get the application's main class.
 * ... ...
 */
if (jarfile != 0) {
    mainClassName = GetMainClassName(env, jarfile);

... ...

    mainClass = LoadClass(env, classname);
    if(mainClass == NULL) { /* exception occured */

... ...

/* Get the application's main method */
mainID = (*env)->GetStaticMethodID(env, mainClass, "main",
                                   "([Ljava/lang/String;)V");

... ...

{    /* Make sure the main method is public */
    jint mods;
    jmethodID mid;
    jobject obj = (*env)->ToReflectedMethod(env, mainClass,
                                            mainID, JNI_TRUE);

... ...

/* Build argument array */
mainArgs = NewPlatformStringArray(env, argv, argc);
if (mainArgs == NULL) {
    ReportExceptionDescription(env);
    goto leave;
}

/* Invoke main method. */
(*env)->CallStaticVoidMethod(env, mainClass, mainID, mainArgs);

... ...
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1  
The problem here is that this is actually a very good answer to the question in its original form, with plenty of references (+1). However, I’d love to learn about the rationale for the design decision of making a static method the entry point, rather than a constructor or instance method. –  Konrad Rudolph Jul 12 '12 at 6:57
1  
@KonradRudolph, for questions regarding to language and JVM specification design, perhaps you could try contact original source from Oracle and see if you can get any positive feedback. –  yorkw Jul 12 '12 at 9:27
1  
Generally speaking when a method result computation depends only on its parameters, so that it does not depend on the object instance internal state, it can be static. And it is recommended to set it as static for code maintainability/re-usability. If the method main was not static, it means the class instance state must be known and it is much more complex to define, like which constructor to use first. –  Yves Martin Jul 15 '12 at 21:38
1  
@Yves It can be. It needn’t, if another design makes sense. I’ve heard some good arguments in the comments here but I still think that a process is effectively very much like a thread (it is), and a thread in Java is usually represented as an instance of Runnable. Representing the whole process in the same way (i.e. having Runnable.Run as the entry point) definitely makes sense in Java. Of course, Runnable itself is arguably a design flaw, caused by the fact that Java doesn’t have anonymous methods (yet). But since it’s there already … –  Konrad Rudolph Jul 16 '12 at 15:30

If it wasn't, which constructor should be used if there are more than one?

There is more information on the initialization and execution of Java programs available in the Java Language Specification.

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Let's simply pretend, that static would not be required as the application entry point.

A application class would then look like this:

class MyApplication {
    public MyApplication(){
        // Some init code here
    }
    public void main(String[] args){
        // real application code here
    }
}

The distinction between constructor code and main method is necessary, because in OO speak a constructor shall only make sure, that an instance is initialized properly. After initialization the instance can be used for the intended "service". Putting the complete application code into the constructor would spoil that.

So this approach would force three different contracts upon the application:

  • There must be a default constructor. Otherwise the JVM would not know which constructor to call and what parameters should be provided.
  • There must be a main method1. Ok, this is not surprising.
  • The class must not be abstract. Otherwise the JVM could not instantiate it.

The static approach on the other hand only requires one contract:

  • There must be a main method1.

Here neither abstract not multiple constructors do not matter.

Since Java was designed to be a simple language for the user it is not surprising that also the application entry point has been designed in a simple way using one contract and not in a complex way using three independent and brittle contracts.

Please note: This argument is not about simplicity inside the JVM or inside the JRE. This argument is about simplicity for the user.


1Here the complete signature counts as only one contract.

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1  
Actually, the requirements are more complex: there must be a main method which is public, static, and has the signature void main(String[]). I agree that, if the method were an instance method, the JRE would have slightly more work but the kind of work would be the same, and the complexity not significantly higher (see discussions in comments of previous answer). I do not believe that this difference accounts for the decision to make the entry point static, in particular since the required methods for the resolution of an instance method exist, and are readily usable. –  Konrad Rudolph Jul 15 '12 at 12:23
2  
@KonradRudolph: My point is not about the work the JRE would have to do. My point is about forcing every user of the language to follow more contracts as necessary. In this sense a static public main(String[]) method is one signature and hence one contract. Otherwise three independent contracts must be followed. –  A.H. Jul 15 '12 at 12:28
1  
Ah. I still disagree that this makes any difference though. Entry point classes could well implement Runnable. Clearly, Java expects developers to follow that contract all the time, why should it be too much for the application entry point? That makes no sense. –  Konrad Rudolph Jul 15 '12 at 12:37
1  
@KonradRudolph: There is no contradiction: In one case the system would force three contracts upon the user. Contracts which are dubious, which are not checkable via the compiler and which are, from the user's point of view, independent. In the usual Thread and Runnable case nothing is hidden from the user, he can clearly see what's going on and he has the change to implement only those contracts which suit him - he is in control, not the system. –  A.H. Jul 15 '12 at 13:21

Because otherwise, it would need an instance of the object to be executed. But it must be called from scratch, without constructing the object first, since it is usually the task of the main() function (bootstrap), to parse the arguments and construct the object, usually by using these arguments/program parameters.

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Before the main method is called, no objects are instantiated. Having the static keyword means the method can be called without creating any objects first.

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Applets, midlets, servlets and beans of various kinds are constructed and then have lifecycle methods called on them. Invoking main is all that is ever done to the main class, so there is no need for state to be held in an object that is called multiple times. It's quite normal to pin main on another class (although not a great idea), which would get in the way of using the class to create a main object.

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It's just a convention, but probably more convenient than the alternative. With a static main, all you need to know to invoke a Java program is the name and location of a class. If it weren't static, you'd also have to know how to instantiate that class, or require that the class have an empty constructor.

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1  
The language spec itself follows the convention. There is no actual requirement for the Java designers to have opted for requiring a static main. However, as Logan explains, the alternatives are more complicated. –  David Arno Sep 28 '08 at 19:55

If the main method would not be static, you would need to create an object of your main class from outside the program. How would you want to do that?

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What is the meaning of public static void main(String args[]) ?
1)public:Public is access specifier means anyone can access/invoke it such as JVM(Java Virtual Machine.
2).static:Static keyword allows main() to be called before an object of the class has been created.
This is neccesary because main() is called by the JVM before any objects are made.Since it is static so directly invoked from class.

class demo
{   
    private int length;
    private static int breadth;
    void output()
    {
        length=5;
        System.out.println(length);
    }

    static void staticOutput()
    {
        breadth=10; 
        System.out.println(breadth);
    }

    public static  void main(String args[])
    {
        demo d1=new demo();
        d1.output(); //Note here output() function is not static so here 
                     //we need to create object
        staticOutput(); //Note here staticOutput() function is  static so here 
                        //we needn't to create object Similar is the case with main
        /* Although:
        demo.staticOutput();  Works fine
        d1.staticOutput();  Works fine */

    }
}

Why we use static sometime for user defined methods(in java functions are called methods)?
Ans:So that we need not to make objects.
3)void:The Type modifiervoid indicates that the main() method being declared doesnot return a value. 4).String[]args:The argument String[] args is the only parameter in main method (main(String[] args).

args -are parameter which contains an array of objects of class type String.

String-Class

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I think the keyword 'static' makes the main method a class method, and class methods have only one copy of it and can be shared by all, and also, it does not require an object for reference. So when the driver class is compiled the main method can be invoked. (I'm just in alphabet level of java, sorry if I'm wrong)

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main() is static because; at that point in the application's lifecycle, the application stack is procedural in nature due to there being no objects yet instantiated.

It's a clean slate. Your application is running at this point, even without any objects being declared (remember, there's procedural AND OO coding patterns). You, as the developer, turn the application into an object-oriented solution by creating instances of your objects and depending upon the code compiled within.

Object-oriented is great for millions of obvious reasons. However, gone are the days when most VB developers regularly used keywords like "goto" in their code. "goto" is a procedural command in VB that is replaced by its OO counterpart: method invocation.

You could also look at the static entry point (main) as pure liberty. Had Java been different enough to instantiate an object and present only that instance to you on run, you would have no choice BUT to write a procedural app. As unimaginable as it might sound for Java, it's possible there are many scenarios which call for procedural approaches.

This is probably a very obscure reply. Remember, "class" is only a collection of inter-related code. "Instance" is an isolated, living and breathing autonomous generation of that class.

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6  
This is incorrect. Plenty of objects are instantiated before main is reached. And if you include a static constructor in the class containing main, that gets executed before main likewise. –  Konrad Rudolph Jul 11 '12 at 7:01

It is just a convention. The JVM could certainly deal with non-static main methods if that would have been the convention. After all, you can define a static initializer on your class, and instantiate a zillion objects before ever getting to your main() method.

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The protoype public static void main(String[]) is a convention defined in the JLS :

The method main must be declared public, static, and void. It must specify a formal parameter (§8.4.1) whose declared type is array of String.

In the JVM specification 5.2. Virtual Machine Start-up we can read:

The Java virtual machine starts up by creating an initial class, which is specified in an implementation-dependent manner, using the bootstrap class loader (§5.3.1). The Java virtual machine then links the initial class, initializes it, and invokes the public class method void main(String[]). The invocation of this method drives all further execution. Execution of the Java virtual machine instructions constituting the main method may cause linking (and consequently creation) of additional classes and interfaces, as well as invocation of additional methods.

Funny thing, in the JVM specification it's not mention that the main method has to be static. But the spec also says that the Java virtual machine perform 2 steps before :

Initialization of a class or interface consists of executing its class or interface initialization method.

In 2.9. Special Methods :

A class or interface initialization method is defined :

A class or interface has at most one class or interface initialization method and is initialized (§5.5) by invoking that method. The initialization method of a class or interface has the special name <clinit>, takes no arguments, and is void.

And a class or interface initialization method is different from an instance initialization method defined as follow :

At the level of the Java virtual machine, every constructor written in the Java programming language (JLS §8.8) appears as an instance initialization method that has the special name <init>.

So the JVM initialize a class or interface initialization method and not an instance initialization method that is actually a constructor. So they don't need to mention that the main method has to be static in the JVM spec because it's implied by the fact that no instance are created before calling the main method.

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Recently, similar question has been posted at Programmers.SE

  • Why a static main method in Java and C#, rather than a constructor?

    Looking for a definitive answer from a primary or secondary source for why did (notably) Java and C# decide to have a static method as their entry point – rather than representing an application instance by an instance of an Application class, with the entry point being an appropriate constructor?

TL;DR part of the accepted answer is,

In Java, the reason of public static void main(String[] args) is that

  1. Gosling wanted
  2. the code written by someone experienced in C (not in Java)
  3. to be executed by someone used to running PostScript on NeWS

http://i.stack.imgur.com/qcmzP.png

 
For C#, the reasoning is transitively similar so to speak. Language designers kept the program entry point syntax familiar for programmers coming from Java. As C# architect Anders Hejlsberg puts it,

...our approach with C# has simply been to offer an alternative... to Java programmers...

...

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The public keyword is an access specifier, which allows the programmer to control the visibility of class members. When a class member is preceded by public, then that member may be accessed by code outside the class in which it's declared.

The opposite of public is private, which prevents a member from being used by code defined outside of its class.

In this case, main() must be declared as public, since it must be called by code outside of its class when the program is started. The keyword static allows main() to be called without having to instantiate a particular instance of the class.

This is necessary since main() is called by the Java interpreter before any objects are made.
The keyword void simply tells the compiler that main() does not return a value.

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The static key word in the main method is used because there isn't any instantiation that take place in the main method. But object is constructed rather than invocation as a result we use the static key word in the main method. In jvm context memory is created when class loads into it.And all static members are present in that memory. if we make the main static now it will be in memory and can be accessible to jvm (class.main(..)) so we can call the main method with out need of even need for heap been created.

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The true entry point to any application is a static method. If the Java language supported an instance method as the "entry point", then the runtime would need implement it internally as a static method which constructed an instance of the object followed by calling the instance method.

With that out of the way, I'll examine the rationale for choosing a specific one of the following three options:

  1. A static void main() as we see it today.
  2. An instance method void main() called on a freshly constructed object.
  3. Using the constructor of a type as the entry point (e.g., if the entry class was called Program, then the execution would effectively consist of new Program()).

Breakdown:

static void main()

  1. Calls the static constructor of the enclosing class.
  2. Calls the static method main().

void main()

  1. Calls the static constructor of the enclosing class.
  2. Constructs an instance of the enclosing class by effectively calling new ClassName().
  3. Calls the instance method main().

new ClassName()

  1. Calls the static constructor of the enclosing class.
  2. Constructs an instance of the class (then does nothing with it and simply returns).

Rationale:

I'll go in reverse order for this one.

Keep in mind that one of the design goals of Java was to emphasize (require when possible) good object-oriented programming practices. In this context, the constructor of an object initializes the object, but should not be responsible for the object's behavior. Therefore, a specification that gave an entry point of new ClassName() would confuse the situation for new Java developers by forcing an exception to the design of an "ideal" constructor on every application.

By making main() an instance method, the above problem is certainly solved. However, it creates complexity by requiring the specification to list the signature of the entry class's constructor as well as the signature of the main() method.

In summary, specifying a static void main() creates a specification with the least complexity while adhering to the principle of placing behavior into methods. Considering how straightforward it is to implement a main() method which itself constructs an instance of a class and calls an instance method, there is no real advantage to specifying main() as an instance method.

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1  
This is just begging the question. Java needs an application loader anyway which does heavy lifting before calling main. Your rationale about main being too complex for beginners seems unbelievable. In fact, the static main is very confusing for beginners, I doubt a constructor would be more so. You say a “constructor should not be responsible for the object’s behaviour”. This sounds interesting but I’m not sure I’d agree. Why doesn’t it? What prevents this? –  Konrad Rudolph Jul 11 '12 at 7:03

It is just a convention as we can see here:

The method must be declared public and static, it must not return any value, and it must accept a String array as a parameter. By default, the first non-option argument is the name of the class to be invoked. A fully-qualified class name should be used. If the -jar option is specified, the first non-option argument is the name of a JAR archive containing class and resource files for the application, with the startup class indicated by the Main-Class manifest header.

http://docs.oracle.com/javase/1.4.2/docs/tooldocs/windows/java.html#description

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The public static void keywords mean the Java virtual machine (JVM) interpreter can call the program's main method to start the program (public) without creating an instance of the class (static), and the program does not return data to the Java VM interpreter (void) when it ends.

Source: Essentials, Part 1, Lesson 2: Building Applications

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As a class loads all static members loads to the memory and then java virtual memory calls main method as it is contract .. . . if it is non static it cannot be loaded to the memory. Only non-static members loaded to the memory while creating object only.

And one more reason it shouldnot be inherited to sub-classes. Static members are not inherited.

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because, a static members are not part of any specific class and that main method, not requires to create its Object, but can still refer to all other classes.

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Actually before knowing this you people should know about types of memories wrto jvm 1)stack (all non static and non-referance types resides) 2)heap (all referance types resides) 3)registars 4)nativemethods 5)context (all static members and variables)

By default every program written with in a class which is referance type any referance type is accessed using it's object only. but before starting program we cant create a object of the class. in jvm context memory is created when class loads into it.And all static members are present in that memory. if we make the main static now it will be in memory and can be accessible to jvm (class.main(..)) so we can call the main method with out need of even need for heap been created.

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static indicates that this method is class method.and called without requirment of any object of class.

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As the execution start of a program from main() and and java is purely object oriented program where the object is declared inside main() that means main() is called before object creation so if main() would non static then to call it there would be needed a object because static means no need of object..........

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It's a frequently asked question why main() is static in Java.

Answer: We know that in Java, execution starts from main() by JVM. When JVM executes main() at that time, the class which contains main() is not instantiated so we can't call a nonstatic method without the reference of it's object. So to call it we made it static, due to which the class loader loads all the static methods in JVM context memory space from where JVM can directly call them.

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6  
This answer was first given in September 2008. The question has been answered. You're not adding any value here. –  EJP Jul 2 '11 at 4:00

Static methods don't require any object. It runs directly so main runs directly.

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From java.sun.com (there's more information on the site) :

"The main method is static to give the Java VM interpreter a way to start the class without creating an instance of the control class first. Instances of the control class are created in the main method after the program starts."

My understanding has always been simply that the main method, like any static method, can be called without creating an instance of the associated class, allowing it to run before anything else in the program. If it weren't static, you would have to instantiate an object before calling it-- which creates a 'chicken and egg' problem, since the main method is generally what you use to instantiate objects at the beginning of the program.

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1  
@KonradRudolph The top comments seem pretty reasonable. main() is used as an entry point to the program and there are several references on the Java website saying that it is supposed to be similar to how C/C++ have a main() function. Because Java is all Objects, it has to be static to avoid object instantiation. Having it static also lets it be loaded and executable into the JVM at runtime. I'm just regurgitating previous answers, but I'm wondering what you would consider a satisfying answer. I think the best you will get is "That's how they wanted it". Keep in mind the date Java was made. –  trevor-e Jul 13 '12 at 21:39
1  
@Jesse Spot-on. It’s entirely possible that it’s merely a matter of convention (although I hope that it’s not, that would be such a boring answer). My original interest in this question was because I thought that using a proper instance to represent the object “running application”, and having the entry point be a method (or the constructor) of this class would be a much more obvious design, since Java was designed to be object oriented from the get-go, and since seemingly analogous objects (threads, via Runnable) in Java do use this design. Why the (apparent) exception here? –  Konrad Rudolph Jul 16 '12 at 15:25

protected by Konrad Rudolph Jul 12 '12 at 13:39

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