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class D {
    public static void main(String args[]) {
        Integer b2=128;
        Integer b3=128;



class D {
    public static void main(String args[]) {
        Integer b2=127;
        Integer b3=127;



Note: Numbers between -128 and 127 are true.

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You might find bexhuff.com/2006/11/java-1-5-autoboxing-wackyness informative. –  Dominic Rodger Nov 9 '09 at 10:01
+1 good catch - Domminic. –  AVD Nov 9 '09 at 10:02
Thanks you Dominic for your instant reply... –  vipin k. Nov 9 '09 at 10:16
how did you get to the point to ask this question? it is really fun, but one never comes across on something like that "in the real world"... or? –  Mare Infinitus Jun 10 '12 at 20:51

4 Answers 4

up vote 46 down vote accepted

When you compile a number literal in Java and assign it to a Integer (capital I) the compile emits:

Integer b2 =Integer.valueOf(127)

This line of code is also generated when you use autoboxing.

valueOf is implemented such that certain numbers are "pooled", and it returns the same instance for values smaller than 128.

From the java 1.6 source code, line 621:

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

The value of high can be configured to another value, with the system property.


If you run your program with that system property, it will output true!

The obvious conclusion: never rely on two references being identical, always compare them with .equals() method.

So b2.equals(b3) will print true for all logically equal values of b2,b3.

Note that Integer cache is not there for performance reasons, but rather to comform to the JLS, section 5.1.7; object identity must be given for values -128 to 127 inclusive.

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+1 I was not aware you could fiddle with the size of the integer cache. –  mlk Nov 9 '09 at 10:09
Good lord... an integer cache. –  izb Nov 9 '09 at 10:13
note that values smaller than 127 will be ignored by java and values bigger than Integer.MAX_VALUE-128 will be capped. –  Andreas Petersson Nov 9 '09 at 10:14
Now - is that making it easier? –  RED SOFT ADAIR Nov 9 '09 at 10:16
no, this is wrong. new Integer(1) == new Integer(1) is false regardless of the jvm. AFAIK no compiler will cheat at the "new" keyword. it MUST always instantiate a new object. –  Andreas Petersson Nov 9 '09 at 15:28

Autoboxing caches -128 to 127. This is specified in the JLS (5.1.7).

If the value p being boxed is true, false, a byte, a char in the range \u0000 to \u007f, or an int or short number between -128 and 127, then let r1 and r2 be the results of any two boxing conversions of p. It is always the case that r1 == r2.

A simple rule to remember when dealing with objects is - use .equals if you want to check if the two objects are "equal", use == when you want to see if they point to the same instance.

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Using primitive data types, ints, would produce true in both cases, the expected output.

However, since you're using Integer objects the == operator has a different meaning.

In the context of objects, == checks to see if the variables refer to the same object reference.

To compare the value of the objects you should use the equals() method E.g.


which will indicate whether b2 is less than b1, greater than, or equal to (check the API for details)

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I wrote the following as this problem isn't just specific to Integer. My conclusion is that more often than not if you use the API incorrectly, you sill see incorrect behavior. Use it correctly and you should see the correct behavior:

public static void main (String[] args) {
    Byte b1=127;
    Byte b2=127;

    Short s1=127; //incorrect should use Byte
    Short s2=127; //incorrect should use Byte
    Short s3=128;
    Short s4=128;

    Integer i1=127; //incorrect should use Byte
    Integer i2=127; //incorrect should use Byte
    Integer i3=128;
    Integer i4=128;

    Integer i5=32767; //incorrect should use Short
    Integer i6=32767; //incorrect should use Short

    Long l1=127L;           //incorrect should use Byte
    Long l2=127L;           //incorrect should use Byte
    Long l3=13267L;         //incorrect should use Short
    Long l4=32767L;         //incorrect should use Short
    Long l5=2147483647L;    //incorrect should use Integer 
    Long l6=2147483647L;    //incorrect should use Integer
    Long l7=2147483648L;
    Long l8=2147483648L;

    System.out.print(b1==b2); //true  (incorrect) Used API correctly
    System.out.print(s1==s2); //true  (incorrect) Used API incorrectly
    System.out.print(i1==i2); //true  (incorrect) Used API incorrectly
    System.out.print(l1==l2); //true  (incorrect) Used API incorrectly

    System.out.print(s3==s4); //false (correct) Used API correctly
    System.out.print(i3==i4); //false (correct) Used API correctly
    System.out.print(i5==i6); //false (correct) Used API correctly
    System.out.print(l3==l4); //false (correct) Used API correctly
    System.out.print(l7==l8); //false (correct) Used API correctly
    System.out.print(l5==l6); //false (correct) Used API incorrectly

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