# Evaluation of the following expression

The following code snippet:

``````int i=-3,j=2,k=0,m;

m=++i && ++j || ++k;
``````

can be evaluated using two concepts,I believe:

1.Since ++ operator has greater precedence than the logical operators,so first all increment operators will be evaluted,then && having higher precedence than || will be computed.In this process,k will be incremented.

2.First && operator will be evaluated.For this ++ i and ++j will be computed.Since the result of the && operator is 1,no need to evaluate the ++k.So k will not be incremented.

When I try it on a system, the result proves reasoning 2 to be correct and 1 to be wrong. Why is it so?

• You are conflating precedence and evaluation order. These aren't the same thing! – Oliver Charlesworth Jun 21 '13 at 15:47
• @Oli Charlesworth thanks a lot but I disagree with you.I don't think that I have mixed them – user1369975 Jun 21 '13 at 15:53
• "Since ++ operator has greater precedence than the logical operators,so first all increment operators will be evaluted" - that's where you mixed them ;) – Oliver Charlesworth Jun 21 '13 at 15:54

Oli is right... You're confusing precedence with evaluation order.

Precedence means that the expression is interpreted as:

``````m = ((((++i) && (++j)) || (++k));
``````

As opposed to, say:

``````m = (++(i && ++(j || (++k)))
``````

Precedence doesn't change the fact that the LHS of the `||` operator will always be evaluated before the RHS.

• I don't understand - maybe I'm overthinking this. `++(j || (++k))` isn't even a valid expression? I don't think it is - and my `gcc` compiler doesn't like it. And if it did - wouldn't `++(any logical expression)` always evaluate to `true` since `false == 0` and `true == 1` (by the definition of the standard - `(int)(true) === 1`. Maybe you meant `((++i && (++j || (==k)))`. It makes the same point I think. – Floris Jun 21 '13 at 17:49
• @Floris It isn't a valid expression, that's why it's a good thing precedence works the way it does. And I used that as an example to explicitly illustrate what would happen if the `++` operator's precedence was reversed, since the `++` operator is what the OP was most concerned with. – Taylor Brandstetter Jun 21 '13 at 18:05

In attempting to be efficient, evaluation of an OR statement (executed from left to right) stops when the LHS is true. There is no need to start evaluating the RHS - there is no concept of "precedence" except within the same group of an expression (when it matters to the value of the expression whether you first do A or B. Example: `5 + 3 * 2` should evaluate to `11`. But in evaluating `( 5 + 6 > 3 * 2)` it doesn't matter whether you do the addition before the multiplication - it doesn't change the result of the comparison. And in practice this gets evaluated left-to-right. Thus you get the result you observed.

The `&&` and `||` operators force left-to-right evaluation. So `i++` is evaluated first. If the result of the expression is not 0, then the expression `j++` is evaluated. If the result of `i++ && j++` is not 1, then `k++` is evaluated.
The `&&` and `||` operators both introduce sequence points, so the side effects of the `++` operators are applied before the next expression is evaluated. Note that this is not true in general; in most circumstances, the order in which expressions are evaluated and the order in which side effects are applied is unspecified.