In case of primitives, the
== operator checks if two values are the same.
If it aren't primitives, it checks if it are two pointers (or references) pointing to the same instance of an object.
equals() method performs a custom check, which is in
Object checking the reference, by using
==. But in other classes, sometimes
equals() is overridden (I don't know if this is a correct past participle).
equals() have to check the content.
So, for example:
int i0 = 34;
int i1 = 34;
int i2 = 35;
i0 == i1: true
i1 == i0: true
i2 == i0: false
But if we have non-primitives
String str0 = new String("Hello man!");
String str1 = new String("Hello man!");
String str2 = new String("!nam olleH");
String str2copy = str2;
str0 == str1: false // Pointer to two different object, so == will give false
str1 == str2: false // Idem
str2 == str2copy: true // So this are two pointers to the same object
str0.equals(str1): true // This are not the same objects, but they are equal
str1 == str1: true // Again: two times a pointer to the same object
true? Because the String class has an override of
equals(). And in that method it doesn't check if they are equal by doing
return this == obj; But in that method, there is a full check. I don't know which method they use to compare the two strings, but here are two possible ways:
- Generating from the the two string a hash-code and check if they are equal (
int == int)
- Checking character by character if they are the same.
So I hope this is clear now.