Why does the following code output 1, instead of 0? a || b should give me 1 and 1 && 0 is 0, right? I don't think logical operations evaluated from right to left.

int main()
    printf("%d\n", 1 || 1 && 0);
    return 0;
  • 1
    Just an aside: those aren't binary in the sense of bitwise, by the way (they are binary in that the work on two values). They're logical operators. & and | are the bitwise ones.
    – paxdiablo
    Sep 14, 2011 at 4:08

3 Answers 3


&& has higher precedence than ||. (Like how multiplication has higher precedence than addition.)

  • 4
    And because of this, it's advisable to use parentheses unless the precedence is quite obvious: printf("%d\n", a || (b && 0)); Sep 14, 2011 at 3:49
  • Turns out the answer is correct. If || had precedence, then it would be (1 || 1) && 0, which results 0. @Mysticial: sorry, wish I could remove the dv.
    – jweyrich
    Sep 14, 2011 at 6:17

This is because of operator precedence. In C, the && operator has higher precedence than the || operator so it is evaluated first.


This comes from logical thinking development (boolean arithmetic), maybe even from hardware design using transistor-transistor-logic and lower level hardware languages (VHDL, for instance). We usually do two layer logics, first layer of AND's and second of OR's. The most typical situation being circuit minimization [1].

Typically, you combine input signals combinations as AND-ports inputs, and AND-ports outputs as OR-port inputs.

[1] http://en.wikipedia.org/wiki/Circuit_minimization

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