The answers here regarding or
and and
are a little wanting here. It's true that they're boolean operators and have nothing to do with sets, though. They're short-circuit boolean operators and are fairly commonly used as a short cut for assigning values with fallback values.
Here's how it works...
If you have a statement saying a or b
and you had to evaluate if that whole statement was true, you'd first start by figuring out if a
was true. If you found a
was true, then you don't need to bother evaluating b
because true or'ed with anything is always true. On the other hand, if a
is false, you have to evaluate b
to determine if the whole statement is false or not. Also, whatever b
is will be the result of the whole a or b
statement.
So, x = a or b
will first test if a
is true and if it is the whole right side of the statement will become a
. Likewise, if a
is false, the whole right side becomes b
because b
will determine if a or b
is true since we know a
is false.
and
is also a short circuit operator. With a and b
, if a
is false we can stop evaluating and say the whole statement is false and ignore b
. If a
is true, the whole statement relies on the boolean value of b
.
So, x = a and b
will first test if a
is true. If a
is true, then the result of a and b
can be simplified to b
and then the statement becomes x = b
. If a
is false, then we can stop at a
and just replace a and b
with a
making it x = a
.
I don't think I've ever seen the use of and
in this fashion, but it does work.