Well the reason for &
and &&
is not, that one evaluates the right side and the other doesn't.
&
is a bitwise operator, which makes a bitwise AND of the two values. It returns a value.
Theoretically, if all bits of the left side are 0 (as is the case for false
), the right side must not neccessarily be evaluated. I guess it's a design decision that it is evaluated in every case. In the simple cases, it is faster than checking if the left side is 0.
&&
is a conditional logical operator, which takes two booleans and returns a boolean (that is true
if and only if both sides are true
).
The same applies here, if the left side is false
, we don't need to check the right side. Here the decision was taken to skip the evaluation of the right side in that case.
And to answer your last question (when would you want to evaluate the RHS if the LHS has failed), there are some scenarios where it can be ok. However, in any case it is possible to prevent these situations (see jocelyn's answer for a good way to make sure that both expressions are evaluated) without loosing readability. In fact, I think jocelyn's way is more readable than if (exprA() & exprB()) { ... }
.
Personally I never use &
unless I really need a bitwise AND.