As I know logical operator && has higher precedence than ||. On running the code:

#include <stdio.h>

int main()
    int i = 1, j =1, k = 1;

    printf("%d\n",++i || ++j && ++k);
    printf("%d %d %d",i,j,k);

    return 0;

is giving the output:

2 1 1

which is possible only when ++i || ++j && ++k is evaluated like this:

(++i) || (++j && ++k)

But, according to operator precedence rule it should be evaluated as:

(++i || ++j) && (++k)

and hence output should be:

2 1 2

What is going wrong with this?

NOTE: As per my understanding I think an operator of higher precedence evaluated as follows(if it is left associative):
1. Evaluate its left expression
2. Then evaluate its right expression(if needed)

Am I wrong?

  • 1
    I think this is a somewhat flawed question, if you need to be explicit about precedence, use parenthesis to denote what order of precedence you want. Don't leave it up to the language or compiler to decide for you. Makes your code more readable and portable too – Dan F Jul 2 '13 at 18:12
  • 4
    (++i || ++j) && (++k) would indicate || has higher precedence, which is false. – user1944441 Jul 2 '13 at 18:13
  • 2
    You answered your own question : the expression is evaluated as (++i) || (++j && ++k) because && has higher precedence. You must remind yourself of the BODMAS rule from school mathematics. – rktcool Jul 2 '13 at 18:17
  • 1
    possible duplicate of Evaluation of the following expression – Oliver Charlesworth Jul 2 '13 at 18:29
  • The answer to your final question "Am I wrong?" is Yes. precedence has to do with which operator binds more tightly and nothing to do with order of evaluation. – Chris Dodd Jul 2 '13 at 18:35

You say:

which is possible only when ++i || ++j && ++k is evaluated like this:

(++i) || (++j && ++k)

But, according to operator precedence rule it should be evaluated as:

(++i || ++j) && (++k)

The first grouping is correct because the precedence of && is higher than the precedence of ||. Then the expression as a whole evaluates the LHS of the ||, with the side-effect of incrementing i, which evaluates to true. That means that the RHS of the || (the && expression) is not evaluated at all because it is not needed to determine the truth of the overall expression.

So, the compiler is correct; you misunderstood precedence in some way.

Why is the first grouping correct? According to first grouping || has higher precedence than &&. What is going wrong with me?

You don't understand precedence, it seems, or you don't understand the interaction of precedence with order of evaluation. The first grouping gives higher precedence to &&.

If you have a + b * c, where * has a higher precedence than +, then it is evaluated as a + (b * c), is it not? Change + to || and * to && and the expressions are isomorphic and the interpretation is similar.

The big difference between the arithmetic expression and the logical expression is that the operands of the logical expression have to be evaluated left-to-right but the operands of the arithmetic expression do not; the compiler could evaluate b * c before evaluating a (but must evaluate b * c before doing the addition). By contrast, in the logical expression (a || b && c), the compiler must evaluate a before evaluating b && c, and when a turns out to be true, it must not evaluate either b or c, let alone b && c.

  • Why first grouping is correct? According to first grouping || has higher precedence than &&.What is going wrong with me? – haccks Jul 2 '13 at 18:21

The || operator short-circuits - if its first operand evaluates to true (nonzero), it doesn't evaluate its second operand.

This is also true for &&, it doesn't use its second operand if the first one is false. This is an optimization that's possible because any boolean value OR true is true, and similarly, any boolean value AND false is always false.

OK, so you're confusing precedence with evaluation order. Nothing is contradictional here at all:

++i || ++j && ++k

is grouped as

(++i) || (++j && ++k)

since && has higher precedence. But then the LHS of the OR operation is true, so the whole RHS with its AND operation is discarded, it isn't evaluated.

To your note in the edit: yes, you're wrong: operator precedence is still not the same as order of evaluation. It's just grouping.

  • Please read my question again , I am not asking this. – haccks Jul 2 '13 at 18:09
  • I am talking about operator precedence.Read my first line . – haccks Jul 2 '13 at 18:10
  • @haccks I know. And you're confusing operator precedence with order of evaluation. – user529758 Jul 2 '13 at 18:12
  • Yah.....true. I am confused with it. – haccks Jul 2 '13 at 18:12
  • @haccks Because || short circuits it never does any of the operations to the right of it. Try it with i = -1 – dakillakan Jul 2 '13 at 18:15

Firstly, as you said it yourself, && has higher precedence, which means that operand grouping should be

 (++i) || (++j && ++k)

Why you are saying that "according to operator precedence" it should be (++i || ++j) && (++k) is not clear to me. That just contradicts what you said yourself.

Secondly, operator precedence has absolutely nothing to do with order of evaluation. Operator precedence dictates the grouping between operators and their operands (i.e. operator precedence says which operand belongs to which operator).

Meanwhile, order of evaluation is a completely different story. It either remains undefined or defined by completely different set of rules. In case of || and && operators the order of evaluation is indeed defined as left-to-right (with mandatory early completion whenever possible).

So, operator precedence rules tell you that the grouping should be

 (++i) || ((++j) && (++k))

Now, order-of-evaluation rules tell you that first we evaluate ++i, then (if necessary) we evaluate ++j, then (if necessary) we evaluate ++k, then we evaluate && and finally we evaluate ||.


Since you are misunderstanding precedence, let's try to clear it up with a mathematical example. Multiplication and division have a higher precedence than addition and subtraction. Which means that this expression:

a + b * c - d / e

Can be written like this:

a + (b * c) - (d / e)

Since you correctly stated that && has higher precedence than ||, this expression:

i || j && k

can be written like this:

i || (j && k)

You can think of it as "the operation with the highest precedence gets parenthesized first", if that helps.

(But precedence is different from evaluation - if i is true, then (j && k) will never be evaluated.)

  • Your explanation is good, it also helps but Jonathan has explained this first in his comment. +1 – haccks Jul 2 '13 at 18:50
  • what happen in this case z = p * r % q? – haccks Jul 2 '13 at 19:10
  • 2
    Multiply and Remainder have the same precedence, so left-to-right breaks the tie: z = ((p * r) % q) – default.kramer Jul 2 '13 at 20:19

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