Stack Overflow is a community of 4.7 million programmers, just like you, helping each other.

Join them; it only takes a minute:

Sign up
Join the Stack Overflow community to:
  1. Ask programming questions
  2. Answer and help your peers
  3. Get recognized for your expertise

consider this code (C++) :

int x = -4 , y = 5 ;
bool result = x > 0 && y++ < 10 ;

the expression (x > 0) will be evaluated first , and because (x > 0 = false) and due to short-circuit evaluation , the other expression (y++ < 10) won't be evaluated and the value of y will remain 5 .

now consider the following code :

int x = -4 , y = 5 ;
bool result = (x > 0) && (y++ < 10) ;

it is expected that the expressions in parentheses will be evaluated first so that before the logical AND is performed , the expression (y++ < 10) would have been evaluated and the value of y has became 6 , but the reality is that the value of y remains 5 . which means that even with the parentheses the evaluation is short-circuited and the expression (y++ < 10) is ignored .

What is the explanation for this case ?!

share|improve this question
"It is expected that the expressions in parentheses will be evaluated first" -- wrong. The parentheses don't make a difference, x > 0 is always evaluated first in both cases. – Adam Rosenfield Oct 10 '12 at 21:57
Parentheses can override precedence, but order of evaluation is independent of precedence. Order of evaluation is determined by sequence points (C, C++98/03) or ordering constraints (C++11), not precedence or associativity. – Jerry Coffin Oct 10 '12 at 21:58
The right side is never evaluated unless the && occurs. While you are correct that parens should be evaluated first in math, boolean logic is a bit different in that it goes left to right guaranteed. – Benjamin Danger Johnson Oct 10 '12 at 21:59

The explanation is in the question - short-circuiting.

In C++, evaluation of && (and || for that matter) is guaranteed to be left-to-right, and as soon as a false is encountered (respectively true for ||), evaluation is guaranteed to stop.

Similar for Java I guess.

The parenthesis are redundant and not relevant in this case - it has nothing to do with operator precedence. It simply has to do with how && works:

In fact, the two versions

x > 0 && y++ < 10
(x > 0) && (y++ < 10)

are equivalent, because ++ has the highest precedence, followed by <,>, and finally &&. Pedantically, you should have written it as:

(x > 0) && ((y++) < 10)

5.14 Logical AND operator [expr.log.and]

1 The && operator groups left-to-right. The operands are both implicitly converted to type bool (clause 4). The result is true if both operands are true and false otherwise. Unlike &, && guarantees left-to-right evaluation: the second operand is not evaluated if the first operand is false. (emphasis mine)

share|improve this answer
FYI Java has the non-short-circuited AND (&) and OR (|). – Steve Kuo Oct 11 '12 at 0:24
@SteveKuo those are bitwise operators, and the C++ versions too are non-short-circuiting. – Luchian Grigore Oct 12 '12 at 8:26

When the left side determines the result, the right side is not evaluated.

In the first case, the right side is y++ < 10, and this is not evaluated. In the second case, the right side is (y++ < 10), and this is not evaluated.

There is no rule that expressions in parentheses are evaluated first. Parentheses only group operands.

share|improve this answer

Even with parentheses short-circuiting must still take place. Consider if you have an expression involving pointers:

int* ptr = 0;
int bar = 5;
bool result = (ptr != 0) && (*ptr == bar || bar > 10);

You clearly can't safely evaluate the right-hand side of the && there, but the parentheses are required to make the precedence work as intended. The parentheses simply determine the order of operations that are actually performed not that they happen in a particular order.

share|improve this answer

Your Answer


By posting your answer, you agree to the privacy policy and terms of service.

Not the answer you're looking for? Browse other questions tagged or ask your own question.