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Possible Duplicate:
Using == operator in Java to compare wrapper objects

java version 1.6.0_26

From a book for SCJP exam preparation:

In order to save memory, two instance of the following[Short and Integer from -128 and 127, and some other but doesn't matter for question] wrapper objects (created throught boixng), will always be == when their primitive values are the same.

What I did:

If we will compare two integer from -128 to 127 like this:

1. Integer i1 = 10;
2. Integer i2 = 10;
3. System.out.println(i1 == i2); // true

But why the same give us "false" or may be it's not the same things:

4. Integer i3 = new Integer(10);
5. Integer i4 = new Integer(10);
6. System.out.println(i3 == i4); // false

My questions:

1) Does on the 1st line of code we make implicit boxing?

2) Why the 3rd and 6th lines of code give us different results?

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4 Answers 4

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Does on the 1st line of code we make implicit boxing?

Yes

2) Why the 3rd and 6th lines of code give us different results?

Integer.valueOf(int) pools all values from -128 to 127.

The reason is that small Integer values are used frequently and there is no point in creating a new object for all such values everytime we need an object. Hence, these are created as "interned" objects and all the references to such integer values will point to the same memory address.

code snippet from Integer.java:

public static Integer valueOf(int i) {
    if(i >= -128 && i <= IntegerCache.high)
        return IntegerCache.cache[i + 128];
    else
        return new Integer(i);
}

Instead, when you call new Integer(10);, it is making an entire new object hence two different objects with same integer values will point to different memory addresses

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  • So, if I write Integer i1 = 10; compiler impicitly replace it with Integer i1 = Integer.valueOf(10); And it means that if my number in the range from -128 to 127 (or your IntegerCache.high) it gives me already existing object of Integer. And it is the main reason why we get true during the == comparison.
    – user485553
    Dec 27, 2012 at 6:40
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1) Does on the 1st line of code we make implicit boxing?

Yes. Its called Auto-Boxing

2) Why the 3rd and 6th lines of code give us different results?

The == actually checks whether two variables are having exactly same value. Note that a primitive variable contain what you see, but a reference variable contain the address to the object that it holds.

When == is used to compare a primitive to a wrapper, the wrapper will be unwrapped and the comparison will be primitive to primitive, and hence it will be true always as it is a primitive comparison and not object comparison. So that's why

System.out.println(i1 == i2);

Will be true.

But in line 6.

System.out.println(i3 == i4);

You are comparing two objects unless the objects have the same reference it will not be true. If you use .equals method you can get true. Try

System.out.println(i3.equals(i4));
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In your first example, the compiler is using boxing to assign the variables. In this case, i1/i2 are constants (a bit like static final objects).

In the second example, you create two instances of an Integer, hence they are never the same.

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The 6 line is showing false because it is comparing to see if the references i3 and i4 are pointing to the same object! In this case it is not. hence the false.

Autoboxing and UnBoxing comes into picture if there are both wrappers and Primitives involved. Here both i3 and i4 are wrapper objects, Hence it will be treated as any other POJO

AutoBoxing happens only if there are both wrapper objects and a primitives involved,

for example

int primitive = 10;
Integer wrapper = new Integer(10);
System.out.println(primitive == wrapper); //true

prints True in the above == comparison the value of the primitive is compared with the state of the wrapper.

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  • I understand that it compares two reference. But I don't understand why it do that?
    – user485553
    Dec 27, 2012 at 6:31

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