Java provides two interesting Boolean operators not found in most other computer languages. These secondary versions of AND and OR are known as short-circuit logical operators. As you can see from the preceding table, the OR operator results in true when A is true, no matter what B is.
Similarly, the AND operator results in false when A is false, no matter what B is. If you use the
&& forms, rather than the
& forms of these operators, Java will not bother to evaluate the right-hand operand alone. This is very useful when the right-hand operand depends on the left one being true or false in order to function properly.
For example, the following code fragment shows how you can take advantage of short-circuit logical evaluation to be sure that a division operation will be valid before evaluating it:
if ( denom != 0 && num / denom >10)
Since the short-circuit form of AND (
&&) is used, there is no risk of causing a run-time exception from dividing by zero. If this line of code were written using the single
& version of AND, both sides would have to be evaluated, causing a run-time exception when
denom is zero.
It is standard practice to use the short-circuit forms of AND and OR in cases involving Boolean logic, leaving the single-character versions exclusively for bitwise operations. However, there are exceptions to this rule. For example, consider the following statement:
if ( c==1 & e++ < 100 ) d = 100;
Here, using a single
& ensures that the increment operation will be applied to
c is equal to 1 or not.