You have to consider how it's evaluated...
a == b == c
is asking if two of them are equal (
b), then comparing that boolean result to the third value
c! It is NOT comparing the first two values with the third. Anything beyond 2 arguments won't chain as you evidently expect.
For whatever it's worth, because C++ considers non-0 values to be "true" in a boolean context, you can express what you want simply as:
return year && month && day && hour && minute && second;
(note: your revised code says "month" twice and doesn't test minute).
Back to the chained
==s: with user-defined types and operator overloading you can create a class that compares as you expect (and it can even allow things like
0 <= x < 10 to "work" in the way it's read in mathematics), but creating something special will just confuse other programmers who already know the (weird) way these things work for builtin types in C++. Worth doing as a ten/twenty minute programming exercise though if you're keen to learn C++ in depth (hint: you need the comparison operators to return a proxy object that remembers what will be the left-hand-side value for the next comparison operator).
Finally, sometimes these "weird" boolean expressions are useful: for example,
a == b == (c == d) might be phrased in English as "either (a == b) and (c == d), OR (a != b) and (c != d)", or perhaps "the equivalence of a and b is the same as the equivalence of c and d (whether true or false doesn't matter)". That might model real world situations like a double-dating scenario: if a likes/dislikes b (their date) as much as c likes/dislikes d, then they'll either hang around and have a nice time or call it quits quickly and it's painless either way... otherwise one couple will have a very tedious time of it.... Because these things can make sense, it's impossible for the compiler to know you didn't intend to create such an expression.