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I always thought Java was pass-by-reference.

However, I've seen a couple of blog posts (for example, this blog) that claim that it isn't.

I don't think I understand the distinction they're making.

What is the explanation?

  • 621
    I believe that much of the confusion on this issue has to do with the fact that different people have different definitions of the term "reference". People coming from a C++ background assume that "reference" must mean what it meant in C++, people from a C background assume "reference" must be the same as "pointer" in their language, and so on. Whether it's correct to say that Java passes by reference really depends on what's meant by "reference". – Gravity Jul 30 '11 at 7:23
  • 108
    I try to consistently use the terminology found at the Evaluation Strategy article. It should be noted that, even though the article points out the terms vary greatly by community, it stresses that the semantics for call-by-value and call-by-reference differ in a very crucial way. (Personally I prefer to use call-by-object-sharing these days over call-by-value[-of-the-reference], as this describes the semantics at a high-level and does not create a conflict with call-by-value, which is the underlying implementation.) – user166390 Dec 15 '11 at 6:12
  • 49
    @Gravity: Can you go and put your comment on a HUGE billboard or something? That's the whole issue in a nutshell. And it shows that this whole thing is semantics. If we don't agree on the base definition of a reference, then we won't agree on the answer to this question :) – MadConan Nov 12 '13 at 20:58
  • 23
    I think the confusion is "pass by reference" versus "reference semantics". Java is pass-by-value with reference semantics. – spraff Mar 27 '14 at 13:54
  • 11
    @Gravity, while you're absolutely correct in that folks coming from C++ will instinctively have a different intuition set regarding the term "reference", I personally believe the body is more buried in the "by". "Pass by" is confusing in that it is absolutely distinct from "Passing a" in Java. In C++, however it colloquially is not. In C++ you can say "passing a reference", and it's understood that it will pass the swap(x,y) test. – user4229245 Mar 23 '15 at 13:44

79 Answers 79

20

Throughout all the answers we see that Java pass-by-value or rather as @Gevorg wrote: "pass-by-copy-of-the-variable-value" and this is the idea that we should have in mind all the time.

I am focusing on examples that helped me understand the idea and it is rather addendum to previous answers.

From [1] In Java you always are passing arguments by copy; that is you're always creating a new instance of the value inside the function. But there are certain behaviors that can make you think you're passing by reference.

  • Passing by copy: When a variable is passed to a method/function, a copy is made (sometimes we hear that when you pass primitives, you're making copies).

  • Passing by reference: When a variable is passed to a method/function, the code in the method/function operates on the original variable (You're still passing by copy, but references to values inside the complex object are parts of both versions of the variable, both the original and the version inside the function. The complex objects themselves are being copied, but the internal references are being retained)

Examples of Passing by copy/ by value

Example from [ref 1]

void incrementValue(int inFunction){
  inFunction ++;
  System.out.println("In function: " + inFunction);
}

int original = 10;
System.out.print("Original before: " + original);
incrementValue(original);
System.out.println("Original after: " + original);

We see in the console:
 > Original before: 10
 > In Function: 11
 > Original after: 10 (NO CHANGE)

Example from [ref 2]

shows nicely the mechanism watch max 5 min

(Passing by reference) pass-by-copy-of-the-variable-value

Example from [ref 1] (remember that an array is an object)

void incrementValu(int[] inFuncion){
  inFunction[0]++;
  System.out.println("In Function: " + inFunction[0]);
}

int[] arOriginal = {10, 20, 30};
System.out.println("Original before: " + arOriginal[0]);
incrementValue(arOriginal[]);
System.out.println("Original before: " + arOriginal[0]);

We see in the console:
  >Original before: 10
  >In Function: 11
  >Original before: 11 (CHANGE)

The complex objects themselves are being copied, but the internal references are being retained.

Example from[ref 3]

package com.pritesh.programs;

class Rectangle {
  int length;
  int width;

  Rectangle(int l, int b) {
    length = l;
    width = b;
  }

  void area(Rectangle r1) {
    int areaOfRectangle = r1.length * r1.width;
    System.out.println("Area of Rectangle : " 
                            + areaOfRectangle);
  }
}

class RectangleDemo {
  public static void main(String args[]) {
    Rectangle r1 = new Rectangle(10, 20);
    r1.area(r1);
  }
}

The area of the rectangle is 200 and the length=10 and width=20

Last thing I would like to share was this moment of the lecture: Memory Allocation which I found very helpful in understanding the Java passing by value or rather “pass-by-copy-of-the-variable-value” as @Gevorg has written.

  1. REF 1 Lynda.com
  2. REF 2 Professor Mehran Sahami
  3. REF 3 c4learn
  • Java by default is said to be pass by reference. usually when a mutable object is passed to some methods then any changes done with that object reference will be reflected to the other parts too using same object reference. But in case of immutable object, if reference is reassigned to some other objects, then it will not be reflected to the other parts, entirely new objects will be created. – Shailendra Singh Jul 8 '16 at 15:26
  • 1
    @ShailendraSingh Java never passes by reference, period. See Gaurav's answer for a clear proof of this. – David Schwartz Jun 10 '17 at 23:27
  • "pass-by-copy-of-the-variable-value" is slightly misleading. An actual argument is a value, which is the result of evaluating an expression. There need be no variable in the expression. – Tom Blodget Oct 23 '17 at 23:04
20

This is the best way to answer the question imo...

First, we must understand that, in Java, the parameter passing behavior...

public void foo(Object param)
{
  // some code in foo...
}

public void bar()
{
  Object obj = new Object();

  foo(obj);
}

is exactly the same as...

public void bar()
{
  Object obj = new Object();

  Object param = obj;

  // some code in foo...
}

not considering stack locations, which aren't relevant in this discussion.

So, in fact, what we're looking for in Java is how variable assignment works. I found it in the docs :

One of the most common operators that you'll encounter is the simple assignment operator "=" [...] it assigns the value on its right to the operand on its left:

int cadence = 0;
int speed = 0;
int gear = 1;

This operator can also be used on objects to assign object references [...]

It's clear how this operator acts in two distinct ways: assign values and assign references. The last, when it's an object... the first, when it isn't an object, that is, when it's a primitive. But so, can we understand that Java's function params can be pass-by-value and pass-by-reference?

The truth is in the code. Let's try it:

public class AssignmentEvaluation
{
  static public class MyInteger
  {
    public int value = 0;
  }

  static public void main(String[] args)
  {
    System.out.println("Assignment operator evaluation using two MyInteger objects named height and width\n");

    MyInteger height = new MyInteger();
    MyInteger width  = new MyInteger();

    System.out.println("[1] Assign distinct integers to height and width values");

    height.value = 9;
    width.value  = 1;

    System.out.println("->  height is " + height.value + " and width is " + width.value + ", we are different things! \n");

    System.out.println("[2] Assign to height's value the width's value");

    height.value = width.value;

    System.out.println("->  height is " + height.value + " and width is " + width.value + ", are we the same thing now? \n");

    System.out.println("[3] Assign to height's value an integer other than width's value");

    height.value = 9;

    System.out.println("->  height is " + height.value + " and width is " + width.value + ", we are different things yet! \n");

    System.out.println("[4] Assign to height the width object");

    height = width;

    System.out.println("->  height is " + height.value + " and width is " + width.value + ", are we the same thing now? \n");

    System.out.println("[5] Assign to height's value an integer other than width's value");

    height.value = 9;

    System.out.println("->  height is " + height.value + " and width is " + width.value + ", we are the same thing now! \n");

    System.out.println("[6] Assign to height a new MyInteger and an integer other than width's value");

    height = new MyInteger();
    height.value = 1;

    System.out.println("->  height is " + height.value + " and width is " + width.value + ", we are different things again! \n");
  }
}

This is the output of my run:

Assignment operator evaluation using two MyInteger objects named height and width

[1] Assign distinct integers to height and width values
->  height is 9 and width is 1, we are different things! 

[2] Assign to height's value the width's value
->  height is 1 and width is 1, are we the same thing now? 

[3] Assign to height's value an integer other than width's value
->  height is 9 and width is 1, we are different things yet! 

[4] Assign to height the width object
->  height is 1 and width is 1, are we the same thing now? 

[5] Assign to height's value an integer other than width's value
->  height is 9 and width is 9, we are the same thing now! 

[6] Assign to height a new MyInteger and an integer other than width's value
->  height is 1 and width is 9, we are different things again! 

In [2] we have distinct objects and assign one variable's value to the other. But after assigning a new value in [3] the objects had different values, which means that in [2] the assigned value was a copy of the primitive variable, usually called pass-by-value, otherwise, the values printed in [3] should be the same.

In [4] we still have distinct objects and assign one object to the other. And after assigning a new value in [5] the objects had the same values, which means that in [4] the assigned object was not a copy of the other, which should be called pass-by-reference. But, if we look carefully in [6], we can't be so sure that no copy was done... ?????

We can't be so sure because in [6] the objects were the same, then we assigned a new object to one of them, and after, the objects had different values! How can they be distinct now if they were the same? They should be the same here too! ?????

We'll need to remember the docs to understand what's going on:

This operator can also be used on objects to assign object references

So our two variables were storing references... our variables had the same reference after [4] and different references after [6]... if such a thing is possible, this means that assignment of objects is done by copy of the object's reference, otherwise, if it was not a copy of reference, the printed value of the variables in [6] should be the same. So objects (references), just like primitives, are copied to variables through assignment, what people usually call pass-by-value. That's the only pass-by- in Java.

18

Java copies the reference by value. So if you change it to something else (e.g, using new) the reference does not change outside the method. For native types, it is always pass by value.

18

It's really quite, quite simple:

For a variable of primitive type (eg. int, boolean, char, etc...), when you use its name for a method argument, you are passing the value contained in it (5, true, or 'c'). This value gets "copied", and the variable retains its value even after the method invocation.

For a variable of reference type (eg. String, Object, etc...), when you use its name for a method argument, you are passing the value contained in it (the reference value that "points" to the object). This reference value gets "copied", and the variable retains its value even after the method invocation. The reference variable keeps "pointing" to the same object.

Either way, you're always passing stuff by value.


Compare this to say C++ where you can have a method to take an int&, or in C# where you could have take a ref int (although, in this case, you also have to use the ref modifier when passing the variable's name to the method.)

  • Also remembering that StringS are immutable in Java. – wulfgarpro Sep 1 '12 at 7:58
  • I find it helpful to think of class-type variables as holding "object IDs". Java's default string representation of objects works well with such a description. If one sets Foo to "Car #1234", and copies Foo to Bar, then both Foo and Bar will hold "Car #1234". Saying Foo.SetColor(Colors.Blue) will paint "Car #1234" blue. The other description I use for such storage locations is "promiscuous object references", since code which passes such a reference to an object has no way of controlling how the recipient might share it. – supercat May 25 '13 at 4:12
  • Variables don't enter into the way Java works. Actual arguments are from evaluating expressions. – Tom Blodget Jul 16 '18 at 0:22
18

Unlike some other languages, Java does not allow you to choose between pass-by-value and pass by-reference—all arguments are passed by value. A method call can pass two types of values to a method—copies of primitive values (e.g., values of int and double) and copies of references to objects.

When a method modifies a primitive-type parameter, changes to the parameter have no effect on the original argument value in the calling method.

When it comes to objects, objects themselves cannot be passed to methods. So we pass address of the object which is held in reference variable.

How Java creates and stores objects: When we create an object we store the object’s adress in a reference variable. “Scanner input” is the type and reference variable, “=” is the assignment operator, “new” asks for required amount of space from the system. The constructor to the right of keyword new which creates the object is called implicitly by the keyword new. Address of the created object(result of right variable, which is an expression) is assigned to the left variable (which is a reference variable with a name and a type specified) using the assign operator. “new Account()” is called “class instance creation expression”.

Although an object’s reference is passed by value, a method can still interact with the referenced object by calling its public methods using the copy of the object’s reference. Since the reference stored in the parameter is a copy of the reference that was passed as an argument, the parameter in the called method and the argument in the calling method refer to the same object in memory.

Passing references to arrays, instead of the array objects themselves, makes sense for performance reasons. Because everything in Java is passed by value, if array objects were passed, a copy of each element would be passed. For large arrays, this would waste time and consume considerable storage for the copies of the elements.

In the image below you can see we have two reference variables(These are called pointers in C/C++, and i think that term makes it easier to understand this feature.) in the main method. Primitive and reference variables are kept in stack memory(left side in images below). array1 and array2 reference variables "point" (as C/C++ programmers call it) or reference to a and b arrays respectively, which are objects (values these reference variables hold are addresses of objects) in heap memory (right side in images below).

Pass by value example 1

If we pass the value of array1 reference variable as an argument to the reverseArray method, a reference variable is created in the method and that reference variable starts pointing to the same array (a).

public class Test
{
    public static void main(String args)
    {
        int[] array1 = { 1, 10, -7 };

        reverseArray(array1);
    }

    public void reverseArray(Int[] array1)
    {
        // ...
    }
}

Pass by value example 2

So, if we say

array1[0] = 5;

in reverseArray method, it will make a change in array a.

We have another reference variable in reverseArray method (array2) that points to an array c. If we were to say

array1 = array2;

in reverseArray method, then the reference variable array1 in method reverseArray would stop pointing to array a and start pointing to array c (Dotted line in second image).

If we return value of reference variable array2 as the return value of method reverseArray and assign this value to reference variable array1 in main method, array1 in main will start pointing to array c.

return array2; // This code is in reverseArray method.

So lets write all the things we have done at once now.

public class Test
{
    public static void main(String args)
    {
        int[] array1 = { 1, 10, -7 };
        int[] array2 = { 5, -190, 0 };

        array1 = reverseArray(array1); /* array1 of 
         main starts pointing to c instead of a */
    }

    public void reverseArray(Int[] array1)
    {
        int[] array2 = { -7, 0, -1 };

        array1[0] = 5; // array a becomes 5, 10, -7

        array1 = array2; /* array1 of reverseArray starts
          pointing to c instead of a (not shown in image below) */
        return array2;
    }
}

enter image description here

And now that reverseArray method is over, its reference variables(array1 and array2) are gone. Which means we now only have the two reference variables in main method array1 and array2 which point to c and b arrays respectively. No reference variable is pointing to object (array) a. So it is eligible for garbage collection.

You could also assign value of array2 in main to array1. array1 would start pointing to b.

17

Java is pass by constant reference where a copy of the reference is passed which means that it is basically a pass by value. You might change the contents of the reference if the class is mutable but you cannot change the reference itself. In other words the address can not be changed since it is passed by value but the content that is pointed by the address can be changed. In case of immutable classes, the content of the reference cannot be changed either.

  • 1
    There is no such thing as a 'constant referenece' in Java unless the programmer specifies 'finally'. – user207421 Aug 2 '13 at 10:05
  • What I meant by constant reference is, there is no way to change the reference itself by saying new MyClass() in a function. If I put it correctly, there object references are passed by value which means a copy of the reference is passed so you can change the data where that reference refers to but you can not change it with new operator and allocate a new object. – fatma.ekici Sep 9 '13 at 13:06
  • So fix your answer. If it was a constant you couldn't reassign it inside the called method, and you can, unless you specify final. – user207421 Sep 25 '14 at 0:41
17

One of the biggest confusion in Java programming language is whether Java is Pass by Value or Pass by Reference.

First of all, we should understand what is meant by pass by value or pass by reference.

Pass by Value: The method parameter values are copied to another variable and then the copied object is passed, that’s why it’s called pass by value.

Pass by Reference: An alias or reference to the actual parameter is passed to the method, that’s why it’s called pass by reference.

Let’s say we have a class Balloon like below.

public class Balloon {

    private String color;

    public Balloon(){}

    public Balloon(String c){
        this.color=c;
    }

    public String getColor() {
        return color;
    }

    public void setColor(String color) {
        this.color = color;
    }
}

And we have a simple program with a generic method to swap two objects, the class looks like below.

public class Test {

    public static void main(String[] args) {

        Balloon red = new Balloon("Red"); //memory reference 50
        Balloon blue = new Balloon("Blue"); //memory reference 100

        swap(red, blue);
        System.out.println("red color="+red.getColor());
        System.out.println("blue color="+blue.getColor());

        foo(blue);
        System.out.println("blue color="+blue.getColor());

    }

    private static void foo(Balloon balloon) { //baloon=100
        balloon.setColor("Red"); //baloon=100
        balloon = new Balloon("Green"); //baloon=200
        balloon.setColor("Blue"); //baloon = 200
    }

    //Generic swap method
    public static void swap(Object o1, Object o2){
        Object temp = o1;
        o1=o2;
        o2=temp;
    }
}

When we execute the above program, we get following output.

red color=Red
blue color=Blue
blue color=Red

If you look at the first two lines of the output, it’s clear that swap method didn’t work. This is because Java is passed by value, this swap() method test can be used with any programming language to check whether it’s pass by value or pass by reference.

Let’s analyze the program execution step by step.

Balloon red = new Balloon("Red");
Balloon blue = new Balloon("Blue");

When we use the new operator to create an instance of a class, the instance is created and the variable contains the reference location of the memory where the object is saved. For our example, let’s assume that “red” is pointing to 50 and “blue” is pointing to 100 and these are the memory location of both Balloon objects.

Now when we are calling swap() method, two new variables o1 and o2 are created pointing to 50 and 100 respectively.

So below code snippet explains what happened in the swap() method execution.

public static void swap(Object o1, Object o2){ //o1=50, o2=100
    Object temp = o1; //temp=50, o1=50, o2=100
    o1=o2; //temp=50, o1=100, o2=100
    o2=temp; //temp=50, o1=100, o2=50
} //method terminated

Notice that we are changing values of o1 and o2 but they are copies of “red” and “blue” reference locations, so actually, there is no change in the values of “red” and “blue” and hence the output.

If you have understood this far, you can easily understand the cause of confusion. Since the variables are just the reference to the objects, we get confused that we are passing the reference so Java is passed by reference. However, we are passing a copy of the reference and hence it’s pass by value. I hope it clears all the doubts now.

Now let’s analyze foo() method execution.

private static void foo(Balloon balloon) { //baloon=100
    balloon.setColor("Red"); //baloon=100
    balloon = new Balloon("Green"); //baloon=200
    balloon.setColor("Blue"); //baloon = 200
}

The first line is the important one when we call a method the method is called on the Object at the reference location. At this point, the balloon is pointing to 100 and hence it’s color is changed to Red.

In the next line, balloon reference is changed to 200 and any further methods executed are happening on the object at memory location 200 and not having any effect on the object at memory location 100. This explains the third line of our program output printing blue color=Red.

I hope above explanation clear all the doubts, just remember that variables are references or pointers and its copy is passed to the methods, so Java is always passed by value. It would be more clear when you will learn about Heap and Stack memory and where different objects and references are stored.

16

Java always uses call by value. That means the method gets copy of all parameter values.

Consider next 3 situations:

1) Trying to change primitive variable

public static void increment(int x) { x++; }

int a = 3;
increment(a);

x will copy value of a and will increment x, a remains the same

2) Trying to change primitive field of an object

public static void increment(Person p) { p.age++; }

Person pers = new Person(20); // age = 20
increment(pers);

p will copy reference value of pers and will increment age field, variables are referencing to the same object so age is changed

3) Trying to change reference value of reference variables

public static void swap(Person p1, Person p2) {
    Person temp = p1;
    p1 = p2;
    p2 = temp;
}

Person pers1 = new Person(10);
Person pers2 = new Person(20);
swap(pers1, pers2);

after calling swap p1, p2 copy reference values from pers1 and pers2, are swapping with values, so pers1 and pers2 remain the same

So. you can change only fields of objects in method passing copy of reference value to this object.

16

Java, for sure, without a doubt, is "pass by value". Also, since Java is (mostly) object-oriented and objects work with references, it's easy to get confused and think of it to be "pass by reference"

Pass by value means you pass the value to the method and if the method changes the passed value, the real entity doesn't change. Pass by reference, on the other hand, means a reference is passed to the method, and if the method changes it, the passed object also changes.

In Java, usually when we pass an object to a method, we basically pass the reference of the object as-a-value because that's how Java works; it works with references and addresses as far as Object in the heap goes.

But to test if it is really pass by value or pass by reference, you can use a primitive type and references:

@Test
public void sampleTest(){
    int i = 5;
    incrementBy100(i);
    System.out.println("passed ==> "+ i);
    Integer j = new Integer(5);
    incrementBy100(j);
    System.out.println("passed ==> "+ j);
}
/**
 * @param i
 */
private void incrementBy100(int i) {
    i += 100;
    System.out.println("incremented = "+ i);
}

The output is:

incremented = 105
passed ==> 5
incremented = 105
passed ==> 5

So in both cases, whatever happens inside the method doesn't change the real Object, because the value of that object was passed, and not a reference to the object itself.

But when you pass a custom object to a method, and the method and changes it, it will change the real object too, because even when you passed the object, you passed it's reference as a value to the method. Let's try another example:

@Test
public void sampleTest2(){
    Person person = new Person(24, "John");
    System.out.println(person);
    alterPerson(person);
    System.out.println(person);
}

/**
 * @param person
 */
private void alterPerson(Person person) {
    person.setAge(45);
    Person altered = person;
    altered.setName("Tom");
}

private static class Person{
    private int age;
    private String name; 

    public Person(int age, String name) {
        this.age=age;
        this.name =name;
    }

    public int getAge() {
        return age;
    }

    public void setAge(int age) {
        this.age = age;
    }

    public String getName() {
        return name;
    }

    public void setName(String name) {
        this.name = name;
    }

    @Override
    public String toString() {
        StringBuilder builder = new StringBuilder();
        builder.append("Person [age=");
        builder.append(age);
        builder.append(", name=");
        builder.append(name);
        builder.append("]");
        return builder.toString();
    }

}

In this case, the output is:

Person [age=24, name=John]
Person [age=45, name=Tom]
15

So many long answers. Let me give a simple one:

  • Java always passes everything by value
  • that means also references are passed by value

In short, you can not modify value of any parameter passed, but you can call methods or change attributes of an object reference passed.

13

Java is strictly passed by value

When I say pass by value it means whenever caller has invoked the callee the arguments(ie: the data to be passed to the other function) is copied and placed in the formal parameters (callee's local variables for receiving the input). Java makes data communications from one function to other function only in a pass by value environment.

An important point would be to know that even C language is strictly passed by value only:
ie: Data is copied from caller to the callee and more ever the operation performed by the callee are on the same memory location and what we pass them is the address of that location that we obtain from (&) operator and the identifier used in the formal parameters are declared to be a pointer variable (*) using which we can get inside the memory location for accessing the data in it.

Hence here the formal parameter is nothing but mere aliases for that location. And any modifications done on that location is visible where ever that scope of the variable (that identifies that location) is alive.

In Java, there is no concept of pointers (ie: there is nothing called a pointer variable), although we can think of reference variable as a pointer technically in java we call it as a handle. The reason why we call the pointer to an address as a handle in java is because a pointer variable is capable of performing not just single dereferencing but multiple dereferencing for example: int *p; in P means p points to an integer and int **p; in C means p is pointer to a pointer to an integer we dont have this facility in Java, so its absolutely correct and technically legitimate to say it as an handle, also there are rules for pointer arithmetic in C. Which allows performing arithmetic operation on pointers with constraints on it.

In C we call such mechanism of passing address and receiving them with pointer variables as pass by reference since we are passing their addresses and receiving them as pointer variable in formal parameter but at the compiler level that address is copied into pointer variable (since data here is address even then its data ) hence we can be 100% sure that C is Strictly passed by value (as we are passing data only)

(and if we pass the data directly in C we call that as pass by value.)

In java when we do the same we do it with the handles; since they are not called pointer variables like in (as discussed above) even though we are passing the references we cannot say its pass by reference since we are not collecting that with a pointer variable in Java.

Hence Java strictly use pass by value mechanism

12

Have a look at this code. This code will not throw NullPointerException... It will print "Vinay"

public class Main {
    public static void main(String[] args) {
        String temp = "Vinay";
        print(temp);
        System.err.println(temp);
    }

    private static void print(String temp) {
        temp = null;
    }
}

If Java is pass by reference then it should have thrown NullPointerException as reference is set to Null.

  • The static is throwing it off. public class Main { public static void main(String[] args) { Main m = new Main(); m.aaa(); } public void aaa() { String temp = "Vinay"; print(temp); System.err.println(temp); } private void print(String temp) { temp = null; } } the above code does not NPE. – Milhous Aug 12 '10 at 21:27
  • Didn't got what you are trying to say..? – Vinay Lodha Aug 13 '10 at 6:27
  • 6
    Doesn't answer the question. The OP is asking for an explanation, not just a proof. – user207421 Aug 2 '13 at 10:04
12

The major cornerstone knowledge must be the quoted one,

When an object reference is passed to a method, the reference itself is passed by use of call-by-value. However, since the value being passed refers to an object, the copy of that value will still refer to the same object referred to by its corresponding argument.

Java: A Beginner's Guide, Sixth Edition, Herbert Schildt

11

A simple test to check whether a language supports pass-by-reference is simply writing a traditional swap. Can you write a traditional swap(a,b) method/function in Java?

A traditional swap method or function takes two arguments and swaps them such that variables passed into the function are changed outside the function. Its basic structure looks like

(Non-Java) Basic swap function structure

swap(Type arg1, Type arg2) {
    Type temp = arg1;
    arg1 = arg2;
    arg2 = temp;
}

If you can write such a method/function in your language such that calling

Type var1 = ...;
Type var2 = ...;
swap(var1,var2);

actually switches the values of the variables var1 and var2, the language supports pass-by-reference. But Java does not allow such a thing as it supports passing the values only and not pointers or references.

  • You might want to clarify your last sentence. My first reaction to "passing the values only and not pointers..." is that your Java implementation probably does exactly that, passes a pointer. The fact that you cannot dereference that pointer seems irrelevant. – Aaron Aug 2 '17 at 15:25
8

In an attempt to add even more to this, I thought I'd include the SCJP Study Guide section on the topic. This is from the guide that is made to pass the Sun/Oracle test on the behaviour of Java so it's a good source to use for this discussion.

Passing Variables into Methods (Objective 7.3)

7.3 Determine the effect upon object references and primitive values when they are passed into methods that perform assignments or other modifying operations on the parameters.

Methods can be declared to take primitives and/or object references. You need to know how (or if) the caller's variable can be affected by the called method. The difference between object reference and primitive variables, when passed into methods, is huge and important. To understand this section, you'll need to be comfortable with the assignments section covered in the first part of this chapter.

Passing Object Reference Variables

When you pass an object variable into a method, you must keep in mind that you're passing the object reference, and not the actual object itself. Remember that a reference variable holds bits that represent (to the underlying VM) a way to get to a specific object in memory (on the heap). More importantly, you must remember that you aren't even passing the actual reference variable, but rather a copy of the reference variable. A copy of a variable means you get a copy of the bits in that variable, so when you pass a reference variable, you're passing a copy of the bits representing how to get to a specific object. In other words, both the caller and the called method will now have identical copies of the reference, and thus both will refer to the same exact (not a copy) object on the heap.

For this example, we'll use the Dimension class from the java.awt package:

1. import java.awt.Dimension;
2. class ReferenceTest {
3.     public static void main (String [] args) {
4.         Dimension d = new Dimension(5,10);
5.         ReferenceTest rt = new ReferenceTest();
6.         System.out.println("Before modify() d.height = " + d.height);
7.         rt.modify(d);
8.         System.out.println("After modify() d.height = "
9.     }
10.
11.
12.
13.   }
14. }

When we run this class, we can see that the modify() method was indeed able to modify the original (and only) Dimension object created on line 4.

C:\Java Projects\Reference>java ReferenceTest
Before modify() d.height = 10
dim = 11
After modify() d.height = 11

Notice when the Dimension object on line 4 is passed to the modify() method, any changes to the object that occur inside the method are being made to the object whose reference was passed. In the preceding example, reference variables d and dim both point to the same object.

Does Java Use Pass-By-Value Semantics?

If Java passes objects by passing the reference variable instead, does that mean Java uses pass-by-reference for objects? Not exactly, although you'll often hear and read that it does. Java is actually pass-by-value for all variables running within a single VM. Pass-by-value means pass-by-variable-value. And that means, pass-by-copy-of- the-variable! (There's that word copy again!)

It makes no difference if you're passing primitive or reference variables, you are always passing a copy of the bits in the variable. So for a primitive variable, you're passing a copy of the bits representing the value. For example, if you pass an int variable with the value of 3, you're passing a copy of the bits representing 3. The called method then gets its own copy of the value, to do with it what it likes.

And if you're passing an object reference variable, you're passing a copy of the bits representing the reference to an object. The called method then gets its own copy of the reference variable, to do with it what it likes. But because two identical reference variables refer to the exact same object, if the called method modifies the object (by invoking setter methods, for example), the caller will see that the object the caller's original variable refers to has also been changed. In the next section, we'll look at how the picture changes when we're talking about primitives.

The bottom line on pass-by-value: the called method can't change the caller's variable, although for object reference variables, the called method can change the object the variable referred to. What's the difference between changing the variable and changing the object? For object references, it means the called method can't reassign the caller's original reference variable and make it refer to a different object, or null. For example, in the following code fragment,

        void bar() {
           Foo f = new Foo();
           doStuff(f);
        }
        void doStuff(Foo g) {
           g.setName("Boo");
           g = new Foo();
        }

reassigning g does not reassign f! At the end of the bar() method, two Foo objects have been created, one referenced by the local variable f and one referenced by the local (argument) variable g. Because the doStuff() method has a copy of the reference variable, it has a way to get to the original Foo object, for instance to call the setName() method. But, the doStuff() method does not have a way to get to the f reference variable. So doStuff() can change values within the object f refers to, but doStuff() can't change the actual contents (bit pattern) of f. In other words, doStuff() can change the state of the object that f refers to, but it can't make f refer to a different object!

Passing Primitive Variables

Let's look at what happens when a primitive variable is passed to a method:

class ReferenceTest {
    public static void main (String [] args) {
      int a = 1;
      ReferenceTest rt = new ReferenceTest();
      System.out.println("Before modify() a = " + a);
      rt.modify(a);
      System.out.println("After modify() a = " + a);
    }
    void modify(int number) {
      number = number + 1;
      System.out.println("number = " + number);
    }
}

In this simple program, the variable a is passed to a method called modify(), which increments the variable by 1. The resulting output looks like this:

  Before modify() a = 1
  number = 2
  After modify() a = 1

Notice that a did not change after it was passed to the method. Remember, it was a copy of a that was passed to the method. When a primitive variable is passed to a method, it is passed by value, which means pass-by-copy-of-the-bits-in-the-variable.

  • With pass-by-value, as Java is, "caller's variable" doesn't make sense. The actual argument is the evaluation of an expression; a variable need not be involved at all. – Tom Blodget Jul 16 '18 at 0:28
8

Java passes primitive types by value and class types by reference

Now, people like to bicker endlessly about whether "pass by reference" is the correct way to describe what Java et al. actually do. The point is this:

  1. Passing an object does not copy the object.
  2. An object passed to a function can have its members modified by the function.
  3. A primitive value passed to a function cannot be modified by the function. A copy is made.

In my book that's called passing by reference.

Brian Bi - Which programming languages are pass by reference?

  • I'm not sure it's technically correct to mention that copies are made for primitive types. Primitive types are immutable which is why they cannot be modified inside a method they are passed to. The difference is negligible for things like numbers, but there is an important difference for potentially large strings. – Dennis Aug 25 '18 at 21:08
  • 10
    This answer is completely incorrect and only creates confusion. Java is a pure pass-by-value language. What confuses you is that the value can be a pointer to an object. Pass-by-reference means one would be able to change the identity of an object at the caller's side. E.g. assigning a new object to a method parameter would also affect the pointer that was passed in the code that called the method. – Torben Oct 3 '18 at 4:40
  • @Dennis Strings are not primitives, they're objects. – nasch Dec 27 '18 at 18:49
  • It's not about what's "In your book." "Pass by reference" and "Pass by value" are industry standard terms which have very specific definitions. By those definitions Java is "Pass by value" without exceptions. – Sanjeev Jan 23 at 0:01
7

It's a bit hard to understand, but Java always copies the value - the point is, normally the value is a reference. Therefore you end up with the same object without thinking about it...

7

There is a very simple way to understand this. Lets's take C++ pass by reference.

#include <iostream>
using namespace std;

class Foo {
    private:
        int x;
    public:
        Foo(int val) {x = val;}
        void foo()
        {
            cout<<x<<endl;
        }
};

void bar(Foo& ref)
{
    ref.foo();
    ref = *(new Foo(99));
    ref.foo();
}

int main()
{
   Foo f = Foo(1);
   f.foo();
   bar(f);
   f.foo();

   return 0;
}

What is the outcome?

1
1
99
99

So, after bar() assigned a new value to a "reference" passed in, it actually changed the one which was passed in from main itself, explaining the last f.foo() call from main printing 99.

Now, lets see what java says.

public class Ref {

    private static class Foo {
        private int x;

        private Foo(int x) {
            this.x = x;
        }

        private void foo() {
            System.out.println(x);
        }
    }

    private static void bar(Foo f) {
        f.foo();
        f = new Foo(99);
        f.foo();
    }

    public static void main(String[] args) {
        Foo f = new Foo(1);
        System.out.println(f.x);
        bar(f);
        System.out.println(f.x);
    }

}

It says:

1
1
99
1

Voilà, the reference of Foo in main that was passed to bar, is still unchanged!

This example clearly shows that java is not the same as C++ when we say "pass by reference". Essentially, java is passing "references" as "values" to functions, meaning java is pass by value.

  • Is there an issue in your c++ version where your risking a segfault when Foo(99) goes out of scope but you reference it in your main method? – matt Jun 15 '16 at 8:14
  • Indeed. Ah comes from using java for 10 years. But the idea still holds. And I fixed it now. – Ravi Sanwal Jun 16 '16 at 15:16
  • I think the previous was better because it would compile. I was just curious about the behavior, sorry about that. – matt Jun 16 '16 at 17:41
  • This answer only helps for those coming from C++ background who are willing to define "reference" the way you have, according to C++'s definition. That is not always the case. – Aaron Aug 2 '17 at 15:41
7

Java is pass by value.

There are already great answers on this thread. Somehow, I was never clear on pass by value/reference with respect to primitive data types and with respect to objects. Therefore, I tested it out for my satisfaction and clarity with the following piece of code; might help somebody seeking similar clarity:

class Test    {

public static void main (String[] args) throws java.lang.Exception
{
    // Primitive type
    System.out.println("Primitve:");
    int a = 5;
    primitiveFunc(a);
    System.out.println("Three: " + a);    //5

    //Object
    System.out.println("Object:");
    DummyObject dummyObject = new DummyObject();
    System.out.println("One: " + dummyObject.getObj());    //555
    objectFunc(dummyObject);
    System.out.println("Four: " + dummyObject.getObj());    //666 (555 if line in method uncommented.)

}

private static void primitiveFunc(int b)    {
    System.out.println("One: " + b);    //5
    b = 10;
    System.out.println("Two:" + b);    //10
}

private static void objectFunc(DummyObject b)   {
    System.out.println("Two: " + b.getObj());    //555
    //b = new DummyObject();
    b.setObj(666);
    System.out.println("Three:" + b.getObj());    //666
}

}

class DummyObject   {
    private int obj = 555;
    public int getObj() { return obj; }
    public void setObj(int num) { obj = num; }
}

If the line b = new DummyObject() is uncommented, the modifications made thereafter are made on a new object, a new instantiation. Hence, it is not reflected in the place where the method is called from. However, otherwise, the change is reflected as the modifications are only made on a "reference" of the object, i.e - b points to the same dummyObject.

Illustrations in one of the answers in this thread (https://stackoverflow.com/a/12429953/4233180) can help gain a deeper understanding.

  • First you said - "Java is pass by value" and then you said - "[...] otherwise, the change is reflected as the modifications are only made on a "reference" of the object" = Java is passed by reference – Flyout Oct 16 '17 at 15:18
7
  • passed by reference : caller and callee use same variable for parameter.

  • passed by value : caller and callee have two independent variables with same value.

  • Java uses pass by value
    • When passing primitive data, it copies the value of primitive data type.
    • When passing object, it copies the address of object and passes to callee method variable.

Example using primitive data type:

public class PassByValuePrimitive {
    public static void main(String[] args) {
        int i=5;
        System.out.println(i);  //prints 5
        change(i);
        System.out.println(i);  //prints 5
    }


    private static void change(int i) {
        System.out.println(i);  //prints 5
        i=10;
        System.out.println(i); //prints 10

    }
}

Example using object:

public class PassByValueObject {
    public static void main(String[] args) {
        List<String> list = new ArrayList<>();
        list.add("prem");
        list.add("raj");
        new PassByValueObject().change(list);
        System.out.println(list); // prints [prem, raj, ram]

    }


    private  void change(List list) {
        System.out.println(list.get(0)); // prem
        list.add("ram");
        list=null;
        System.out.println(list.add("bheem")); //gets NullPointerException
    }
}
7

PT 1: Of Realty Listings

There is a blue, 120sq-ft "Tiny House" currently parked at 1234 Main St with a nicely manicured lawn & flower bed out front.

A Realtor with a local firm is hired and told to keep a listing for that house.

Let's call that Realtor "Bob." Hi Bob.

Bob keeps his Listing, which he calls tinyHouseAt1234Main, up to date with a webcam that allows him to note any changes to the actual house in real time. He also keeps a tally of how many people have asked about the listing. Bob's integer viewTally for the house is at 42 today.

Whenever someone wants info about the blue Tiny House at 1234 Main St, they ask Bob.

Bob looks up his Listing tinyHouseAt1234Main and tells them all about it - the color, the nice lawn, the loft bed and the composting toilet, etc. Then he adds their inquiry to his viewTally. He doesn't tell them the real, physical address though, because Bob's firm specializes in Tiny Houses that could be moved at any time. The tally is now 43.

At another firm, Realtors might explicitly say their listing "points" to the house at 1234 Main St, denoting this with a little * next to it, because they mainly deal with houses that rarely ever move (though presumably there are reasons for doing so). Bob's firm doesn't bother doing this.

Now, of course Bob doesn't physically go and put the actual house on a truck to show it to clients directly - that would be impractical and a ridiculous waste of resources. Passing a full copy of his tally sheet is one thing, but passing around the whole house all the time is costly and ridiculous.

(Aside: Bob's firm also doesn't 3D print new & unique copies of a listed house every single time someone asks about it. That's what the upstart, similarly named web-based firm & its spinoffs do - that's expensive and slower, and people often get the 2 firms confused, but they're quite popular anyway).

At some other, older firms closer to the Sea, a realtor like Bob might not even exist to manage the Listings. Clients might instead consult the Rolodex "Annie" (& for short) for the direct address of the house. Instead of reading off the referenced house details from the listing like Bob does, clients instead get the house address from Annie (&), and go directly to 1234 Main St, sometimes w/no idea what they might find there.

One day, Bob's firm begins offering a new automated service that needs the listing for a house the client is interested in.

Well, the person with that info is Bob, so the client has Bob call up the service and send it a copy of the listing.

jobKillingAutomatedListingService(Listing tinyHouseAt1234Main, int viewTally) Bob sends along ...

The service, on its end, calls this Listing houseToLookAt, but really what it receives is an exact copy of Bob's listing, with the exact same VALUEs in it, that refer to the house at 1234 Main St.

This new service also has its own internal tally of how many people have viewed the listing. The service accepts Bob's tally out of professional courtesy, but it doesn't really care and overwrites it entirely with its own local copy anyway. It's tally for today is 1, while Bob's is still 43.

The realty firms call this "pass-by-value" since Bob's passing the current value of his viewTally and his Listing tinyHouseAt1234Main. He's not actually passing along the entire physical house, because that's impractical. Nor is he passing the real physical address like Annie(&) would do.

But he IS passing a copy of the value OF the reference he has to the house. Seems like a silly pedantic difference in some ways, but that's how his firm works ... ..............

PT II: Where things get confusing and dangerous ...

The new automated service, not being all functional and math-oriented like some other trendy financial & scientific firms, can have unforeseen side effects...

Once given a Listing object it allows clients to actually repaint the REAL house at 1234 Main St, using a remote drone robot fleet! It allows clients to control a robot bulldozer to ACTUALLY dig up the flower bed! This is madness!!!

The service also lets clients completely redirect houseToLookAt to some other house at another address, without involving Bob or his listing. All of a sudden they could be looking at 4321 Elm St. instead, which has no connection whatsoever to Bob's listing (thankfully they can't do anymore damage).

Bob watches all this on his realtime webcam. Resigned to the drudgery of his sole job responsibility, he tells clients about the new ugly paint job & sudden lack of curb appeal. His Listing is still for 1234 Main St., after all. The new service's houseToLookAt couldn't change that. Bob reports the details of his tinyHouseAt1234Main accurately and dutifully as always, until he gets fired or the house is destroyed entirely by The Nothing.

Really the only thing the service CAN'T do with its houseToLookAt copy of the Bob's original listing is change the address from 1234 Main St. to some other address, or to a void of nothingness, or to some random type of object like a Platypus. Bob's Listing still always points to 1234 Main St, for whatever it's still worth. He passes its current value around like always.

This bizarre side-effect of passing a listing to the new automated service is confusing for people who ask about how it works. Really, what's the difference between the ability to remotely control robots that alter the state of the house at 1234 Main, vs. actually physically going there and wreaking havoc because Annie gave you the address??

Seems like kind of a nitpicky semantic argument if what you generally care about is the state of the house in the listing being copied and passed around, right?

I mean, if you were in the business of actually picking up houses and physically moving them to other addresses (not like mobile or Tiny Homes where that's sort of an expected function of the platform), or you were accessing, renaming, and shuffling entire neighborhoods like some sort of low-level God-playing madman, THEN maybe you'd care more about passing around those specific address references instead of just copies of the the latest value of the house details ...

6

In my opinion, "pass by value" is a terrible way to singularly describe two similar but different events. I guess they should have asked me first.

With primitives we are passing the actual value of the primitive into the method (or constructor), be it the integer "5", the character "c", or what have you. That actual value then becomes its own local primitive. But with objects, all we are doing is giving the same object an additional reference (a local reference), so that we now have two references pointing to the same object.

I hope this simple explanation helps.

  • 5
    'Pass by value' is a standard term in computer science and has been since the 1950s. No point in complaining about it now. – user207421 Jun 7 '16 at 3:59
6

Everything is passed by value. Primitives and Object references. But objects can be changed, if their interface allows it.

When you pass an object to a method, you are passing a reference, and the object can be modified by the method implementation.

void bithday(Person p) {
    p.age++;
}

The reference of the object itself, is passed by value: you can reassign the parameter, but the change is not reflected back:

void renameToJon(Person p) { 
    p = new Person("Jon"); // this will not work
}

jack = new Person("Jack");
renameToJon(jack);
sysout(jack); // jack is unchanged

As matter of effect, "p" is reference (pointer to the object) and can't be changed.

Primitive types are passed by value. Object's reference can be considered a primitive type too.

To recap, everything is passed by value.

6

Shortest answer :)

  • Java has pass-by-value (and pass-reference-by-value.)
  • C# also has pass-by-reference

In C# this is accomplished with the "out" and "ref" keywords.

Pass By Reference: The variable is passed in such a way that a reassignment inside the method is reflected even outside the method.

Here follows an example of passing-by-reference (C#). This feature does not exist in java.

class Example
{
    static void InitArray(out int[] arr)
    {
        arr = new int[5] { 1, 2, 3, 4, 5 };
    }

    static void Main()
    {
        int[] someArray;
        InitArray(out someArray);

        // This is true !
        boolean isTrue = (someArray[0] == 1);
    }
}

See also: MSDN library (C#): passing arrays by ref and out

See also: MSDN library (C#): passing by by value and by reference

  • in java we can do: someArray = InitArray(someArray) assuming we have this: static int [] InitArray( int[] arr){ ... return ...} – Kachna Feb 27 '16 at 11:06
  • You are correct. That's a possible alternative for a simple pass-by-reference. But pass-by-reference can do more powerful things. e.g. it could assign multiple values: e.g. int[] array1; int[] array2; InnitArrays(out array1, out array2); assuming that you create a method static void InitArray(out int[] a1, out int[] a2){...} – bvdb Feb 27 '16 at 16:28
6

Simple program

import java.io.*;
class Aclass
{
    public int a;
}
public class test
{
    public static void foo_obj(Aclass obj)
    {
        obj.a=5;
    }
    public static void foo_int(int a)
    {
        a=3;
    }
    public static void main(String args[])
    {
        //test passing an object
        Aclass ob = new Aclass();
        ob.a=0;
        foo_obj(ob);
        System.out.println(ob.a);//prints 5

        //test passing an integer
        int i=0;
        foo_int(i);
        System.out.println(i);//prints 0
    }
}

From a C/C++ programmer's point of view, java uses pass by value, so for primitive data types (int, char etc) changes in the function does not reflect in the calling function. But when you pass an object and in the function you change its data members or call member functions which can change the state of the object, the calling function will get the changes.

  • 1
    You can only define one class per file. This is not including nested and inner classes. Considering this will be something a new programmer will be reading, you should explain this to the user; allowing them to duplicate the code on their machine. – mrres1 Jan 25 '15 at 1:30
  • 2
    @mrres1 Not entirely correct. You can define only one public top-level class/interface per file. Supporting several classes per file is a remnant from the first Java version, which didn't have nested classes, but it is still supported, though often frowned upon. – MrBackend Mar 19 '15 at 13:53
6

Unlike some other languages, Java does not allow you to choose pass-by-value or pass-by-reference

all arguments are passed by value.

A method call can pass two types of valuesto a method

  • copies of primitive values (e.g., values of type int and double)
  • copies of references to objects.

Objects themselves cannot be passed to methods. When a method modifies a primitive-type parameter, changes to the parameter have no effect on the original argument value in the calling method.

This is also true for reference-type parameters. If you modify a reference-type parameter so that it refers to another object, only the parameter refers to the new object—the reference stored in the caller’s variable still refers to the original object.

References: Java™ How To Program (Early Objects), Tenth Edition

6

I made this little diagram that shows how the data gets created and passed

Diagram of how data is created and passed

Note: Primitive values are passed as a value, the first reference to to that value is the method's argument

That means:

  • You can change the value of myObject inside the function
  • But you can't change what myObject references to, inside the function, because point is not myObject
  • Remember, both point and myObject are references, different references, however, those references point at the same new Point(0,0)
5

Java passes parameters by value, but for object variables, the values are essentially references to objects. Since arrays are objects the following example code shows the difference.

public static void dummyIncrease(int[] x, int y)
{
    x[0]++;
    y++;
}
public static void main(String[] args)
{
    int[] arr = {3, 4, 5};
    int b = 1;
    dummyIncrease(arr, b);
    // arr[0] is 4, but b is still 1
}

main()
  arr +---+       +---+---+---+
      | # | ----> | 3 | 4 | 5 |
      +---+       +---+---+---+
  b   +---+             ^
      | 1 |             | 
      +---+             |
                        |
dummyIncrease()         |
  x   +---+             |
      | # | ------------+
      +---+      
  y   +---+ 
      | 1 | 
      +---+ 
5

I tried to simplify the examples above, keeping only the essense of the problem. Let me present this as a story that is easy to remember and apply correctly. The story goes like this: You have a pet dog, Jimmy, whose tail is 12 inches long. You leave it with a vet for a few weeks while you are travelling abroad.

The vet doesn't like the long tail of Jimmy, so he wants to cut it by half. But being a good vet, he knows that he has no right to mutilate other people's dogs. So he first makes a clone of the dog (with the new key word) and cuts the tail of the clone. When the dog finally returns to you, it has the original 12 inch tail in tact. Happy ending !

The next time you travel, you take the dog, unwittingly, to a wicked vet. He is also a hater of long tails, so he cuts it down to a miserable 2 inches. But he does this to your dear Jimmy, not a clone of it. When you return, you are shocked to see Jimmy pathetically wagging a 2 inch stub.

Moral of the story: When you pass on your pet, you are giving away whole and unfettered custody of the pet to the vet. He is free to play any kind of havoc with it. Passing by value, by reference, by pointer are all just technical wrangling. Unless the vet clones it first, he ends up mutilating the original dog.

public class Doggie {

    public static void main(String...args) {
        System.out.println("At the owner's home:");
        Dog d = new Dog(12);
        d.wag();
        goodVet(d);
        System.out.println("With the owner again:)");
        d.wag();
        badVet(d);
        System.out.println("With the owner again(:");
        d.wag();
    }

    public static void goodVet (Dog dog) {
        System.out.println("At the good vet:");
        dog.wag();
        dog = new Dog(12); // create a clone
        dog.cutTail(6);    // cut the clone's tail
        dog.wag();
    }

    public static void badVet (Dog dog) {
        System.out.println("At the bad vet:");
        dog.wag();
        dog.cutTail(2);   // cut the original dog's tail
        dog.wag();
    }    
}

class Dog {

    int tailLength;

    public Dog(int originalLength) {
        this.tailLength = originalLength;
    }

    public void cutTail (int newLength) {
        this.tailLength = newLength;
    }

    public void wag()  {
        System.out.println("Wagging my " +tailLength +" inch tail");
    }
}

Output:
At the owner's home:
Wagging my 12 inch tail
At the good vet:
Wagging my 12 inch tail
Wagging my 6 inch tail
With the owner again:)
Wagging my 12 inch tail
At the bad vet:
Wagging my 12 inch tail
Wagging my 2 inch tail
With the owner again(:
Wagging my 2 inch tail
5

Java is always pass-by-value, the parameters are copies of what the variables passed, all Objects are defined using a reference, and reference is a variable that stores a memory address of where the object is in memory.

Check the comments to understand what happens in execution; follow numbers as they show the flow of execution ..

class Example
{
    public static void test (Cat ref)
    {
        // 3 - <ref> is a copy of the reference <a>
        // both currently reference Grumpy
        System.out.println(ref.getName());

        // 4 - now <ref> references a new <Cat> object named "Nyan"
        ref = new Cat("Nyan");

        // 5 - this should print "Nyan"
        System.out.println( ref.getName() );
    }

    public static void main (String [] args)
    {
        // 1 - a is a <Cat> reference that references a Cat object in memory with name "Grumpy"
        Cat a = new Cat("Grumpy");

        // 2 - call to function test which takes a <Cat> reference
        test (a);

        // 6 - function call ends, and <ref> life-time ends
        // "Nyan" object has no references and the Garbage
        // Collector will remove it from memory when invoked

        // 7 - this should print "Grumpy"
        System.out.println(a.getName());
    }
}
  • 'Pass its inner value' is meaningless. – user207421 Sep 17 '17 at 10:09
  • @EJP thanks for the note, excuse my bad English from 2013, I've edited the whole thing, if you see a better wording, you may suggest or edit – Khaled.K Sep 17 '17 at 16:41
  • i would like to add one thing.if you have changed the name of cat instead of creating a new one, it will reflect in the memory even after the method returns – user6091735 Nov 18 '17 at 16:26

protected by Nick Craver Jun 24 '11 at 18:08

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