It is not required by C++ that the return type be a reference to an
ostream object. However, if you are trying to do something like:
cout << instance_of_custom_type << 3 << "hi" << endl;
Then you will need:
ostream &operator << (ostream &os, custom_type &t);
However, if you were doing something like writing a large integer type, and wanted to support bit shifting, it might be something like:
BigInt operator << (const BigInt &i, unsigned int shift);
To expand this a bit further, the original use of the
<< operator is for bit shifting.
1 << 8 is 256, for example. C++ added a (slightly confusing) second use for this, and overloaded it on
ostream to mean "output" to the stream. You can do whatever you like within an overloaded operator - it works just like a function, however, operators have a human expectation attached with them: programmers expect, in C++, that
<< is bit shifting or stream output.