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Maybe I've been working too long on Java without really understanding some of its basics.
I do understand that == is for object reference equality and .equals() is for object value equality.

  1. Comparing Integers:

    Integer x = 1, y = 1;  
    System.out.println(x == y); // true

    Why? Since object reference equality is used, it should be false since they are both different objects.

  2. Comparing getClass() return values:

    String s1 = "a", s2 = "b";  
    System.out.println(s1.getClass() == s2.getClass()); // true 

    Why? Again as per above, object reference is used. Both using getClass will return separate Class objects.

Did I miss something or is my mind is too tired of coding in Java?

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Why do you thing the getClass call should return different objects? Both s1 and s2 are of class String so it's rather natural that getClass should return the same class object. –  Mat Sep 18 '11 at 20:51
Because the getClass() does not return object of String class but rather of Class class. Well the getClass actually return an object of Class<? extends |T|> which is of Class object. –  yapkm01 Sep 18 '11 at 20:58
Yes getClass gives you a reference to an object of Class class. Why would these to references you get not be the same when they represent the same class (String here)? –  Mat Sep 18 '11 at 21:00
Try, with your example code, x.getClass() == s1.getClass(). This will return false, because x and s1 are of different classes, so the Class object returned by getClass() is a different one. The fact that Integer and String both have "special" handling with pooling is unrelated. –  Mat Sep 18 '11 at 21:11
YES! That's the idea. (But, and that's not important in usual circumstances, there can be multiple instances of a class for the same type in the same VM: when multiple ClassLoaders are involved. In the normal case, as long as you're not playing with classloaders yourself, this will not happen.) –  Mat Sep 18 '11 at 21:15

4 Answers 4

up vote 11 down vote accepted

Integer objects

Integer x = 1, y = 1;
System.out.println(x==y); // true, why?

This happens because for values in the byte range (-128 to +127), java uses cached Integer objects, stored in Integer's inner class, IntegerCache. Every time an Integer object is created with value between -128 and +127, the same object will be returned (instead of creating the new object).

Conversely, for values outside the byte range, the comparison is false:

Integer x = 999, y = 999;
System.out.println(x==y); // false

Class objects

String s1 = "a", s2 = "b";
System.out.println(s1.getClass() == s2.getClass()); // true. Why?

This is true because the class of both objects is String, and there is only one copy of each class object per JVM (it's like a singleton). The class object returned from getClass() of each String is the same class object (String.class).

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Actually the last sentence isn't really true. You can get more than one string class (and GREAT compile errors) if you play with classloaders the wrong way. Still +1, but a bit nitpicking is just too much fun to ressist ;) –  Voo Sep 18 '11 at 20:55
@Bohemian Try this. ArrayList <Integer> x1 = new ArrayList <Integer>() and ArrayList <Integer> x2 = new ArrayList <<Integer>() and do a printout of the getClass() of both x1 and x2 using ==. It will print TRUE. Now that is not of String class. –  yapkm01 Sep 18 '11 at 20:55
@yapkm01 Yeah obviously. There's only one ArrayList class. What the arraylist is unimportant too when comparing classes (generics being not available at runtime) –  Voo Sep 18 '11 at 20:57
@Voo You sure mean GREAT runtime errors ;) –  Philipp Reichart Sep 18 '11 at 20:57
@yapkm01 Now you are comparing the classes of ArrayList - yes they are the same object ArrayList.class –  Bohemian Sep 18 '11 at 20:58

a is a good question. As Integers are immutable, the Java implementation doesn't guarantee that you will get a unique object for each Integer. Java uses a pool of Integer objects for small values -128 to +127, so a and b both reference the same underlying 1 object.

As for b, both Strings are instances of the same String class. getClass() returns the same Class object for each.

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If there any specification-backed guarantee either that small integers will always yield the same objects, or that large objects will always yield distinct ones, or could future Java versions e.g. keep a hash table of the most-recently-boxed integers and cache any value which it notices is getting used a lot? –  supercat Oct 13 '13 at 16:52
It's 5.1.7 in the JLS: docs.oracle.com/javase/specs/jls/se7/html/jls-5.html#jls-5.1.7 Values from -128 to +127 must be cached, and other values may be cached if the implementation has enough memory. –  Adrian Cox Oct 13 '13 at 17:37
As written, it sounds like an implementation would be free to decide arbitrarily whether any particular request to box anything other than an int -128..127 should return a new object, and need not be consistent? For example, an implementation could start with intCacheTop equal to 128, count how many times an int gets boxed which is between intCacheTop and intCacheTop*2-1, and if enough values in that range get boxed, start caching values from intCacheTop to intCacheTop*2-1 and double intCacheTop? –  supercat Oct 13 '13 at 18:17
That seems allowed by the specification, though I suspect the performance gain wouldn't be worth the complexity. –  Adrian Cox Oct 13 '13 at 18:25
Odds are that programmers would avoid writing code that boxed so many integers that performance gain would be significant. On the other hand, keeping a count of how many new Integer objects are getting created wouldn't be very expensive; whether or not it would be worth the "effort" required to do so, from a performance perspective having the GC watch for cases where e.g. an application had declined to do its own caching of integer variables which related to quantities which were expected to be less than 128, but which had grown beyond that, might be a tiny-risk occasional-reward, scenario. –  supercat Oct 13 '13 at 18:43

If you are not already already aware, this is related to the autboxing/unboxing concept. So, when you compare the Integer objects , you can imagine the compiler automaticaly adds intValue() when comparing them - so it essentially becomes a primitive value comparison rather than object equality.

Regarding the String, that;s because it compares class/types, which is always a single (and hence same) one in the JVM.

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That's not true. Try with Integer x=999, y=999 and do a ==. It returns false. –  yapkm01 Sep 18 '11 at 21:21

Your understanding of == and equals() is correct. In the first case, it is so because of caching. In the second case, the class of the object is always same, it does not depend on the instance. If it did, it would be huge waste of memory.

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