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Weird Java Boxing

Recently I saw a presentation where was the following sample of Java code:

Integer a = 1000, b = 1000;  
System.out.println(a == b); // false  
Integer c = 100, d = 100;  
System.out.println(c == d); // true

Now I'm a little confused. I understand why in first case the result is "false" - it is because Integer is a reference type and the references of "a" and "b" is different.

But why in second case the result is "true"?

I've heard an opinion, that JVM caching objects for int values from -128 to 127 for some optimisation purposes. In this way, references of "c" and "d" is the same.

Can anybody give me more information about this behavior? I want to understand purposes of this optimization. In what cases performance is increased, etc. Reference to some research of this problem will be great.

  • 3
    You should note that you can not write code that depends on this behavior as other JVM/JDK implementors do not have to implement this optimization or if they want to, they can extend the range of the cached values.
    – Behrang
    Jun 28, 2010 at 11:03
  • 5
    Note that caching does not apply to explicitly created objects. I.e. Integer a = 1; Integer b = new Integer(1); System.out.println(a == b); // prints false
    – ccpizza
    Dec 15, 2015 at 21:25
  • @ccpizza It obviously doesn’t apply to explicitly created objects, since the JLS guarantees allocating and returning a new memory address after each new operator call.
    – Toni Nagy
    Mar 26, 2021 at 20:11

2 Answers 2


I want to understand purposes of this optimization. In what cases performance is increased, etc. Reference to some research of this problem will be great.

The purpose is mainly to save memory, which also leads to faster code due to better cache efficiency.

Basically, the Integer class keeps a cache of Integer instances in the range of -128 to 127, and all autoboxing, literals and uses of Integer.valueOf() will return instances from that cache for the range it covers.

This is based on the assumption that these small values occur much more often than other ints and therefore it makes sense to avoid the overhead of having different objects for every instance (an Integer object takes up something like 12 bytes).

  • 15
    Note that the cache only works if you use auto-boxing or the static method Integer.valueOf(). Calling the constructor will always result in a new instance of integer, even if the value of that instance is in the -128 to 127 range.
    – Tim Bender
    Jun 28, 2010 at 10:52
  • Can anyone explain this phenomenon? ideone.com/DAI75m - why are two small values (< 128) that are different from each other declared as "not equal"? Since they are both cached, shouldn't they belong to the same Integer instance and hence "==" would return true since it is comparing their references? Feb 8, 2013 at 15:42
  • 2
    @David Doria: you seem to have serious misconceptions of what an "instance" is. It's fundamentally impossible to have two different values "belong to the same Integer instance". An Object instance is basically a region of memory. You can have multiple different instances with the same value, but not the other way round. The cache will return different instances for different values; it just ensures that you always get the same instance for the same value. Feb 8, 2013 at 15:52
  • @MichaelBorgwardt could you reference a source of the caching information. Maybe JLS? Aug 27, 2014 at 9:33
  • @Michael: I still don't get it. If Integer uses 8 bytes to store numbers from -128 to +127, the user might at some point replace the small number with a number larger than 127. Then Integer would have to store it in a 16 bit space. So Integer would always have to keep an 8 bit space and a 16 bit space ready for storing a primitive int, right? So how does memory get saved. As I see it, they're using more memory. Or perhaps I missed something?
    – Nav
    Sep 17, 2014 at 3:38

Look at the implementation of Integer.valueOf(int). It will return the same Integer object for inputs less than 256.


It's actually -128 to +127 by default as noted below.

  • 4
    Actually the default range is -128 <= i <= 127. There seems to be a System Property (java.lang.Integer.IntegerCache.high) that can influence the maximum value of an integer to get cached.
    – Andreas
    Jun 28, 2010 at 9:13
  • 1
    Yep. Sorry, -128 to +127. Still, the point is, small values of i are cached!
    – dty
    Jun 28, 2010 at 9:21
  • For more detailed answer, stackoverflow.com/a/64837154/6073148
    – Zahid Khan
    Nov 14, 2020 at 18:55

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