You can overload the assignment operator however you please but the usual implementation in C++ is something like this:
MyObject& operator=(const MyObject& rhs)
if (this != &rhs)
x = rhs.x;
The reason for doing this is to allow simple assignment of custom objects. Since user defined classes and structs can be complex sometimes you need to provide a custom assignment operator to do things like deep copies of pointer members.
b = a; // calls assignment operator b.operator=(a);
Note you can't overload operators in C and Java probably does it differently.
Other things you may want to know as Griwes pointed out is that the compiler will generate an implicit assignment operator for your user defined object if you don't specify one. Sometimes you want to define or declare it simply to avoid the default behavior generated by the compiler.
There is also some usages of the
= token that will actually call the copy constructor for instance if you modify my previous use case like so:
MyObject b = a; // this calls the copy constructor (also implicitly defined if not provided)
It may look like an assignment but the custom provided operator will not be called in the above case. For more reasons behind when you do or don't want to define an assignment operator check out the rule of three on Wikipedia.