# NOT of an integer in C [duplicate]

``````#include <stdio.h>
int main()
{
int i;

i=1;
printf("%d ",!i);

i=5;
printf("%d ",!i);

i=0;
printf("%d\n",!i);

return 0;
}
``````

I got the following output in C: `0 0 1`

What is the logic behind the output?

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the logic is `0 == false` and `anything else == true` –  Griffin Jun 11 at 15:15

## marked as duplicate by Wooble, AndreyT, undur_gongor, kbok, Armin Jun 11 at 16:12

In C, any non zero value is considered to be a true value. So taking the logical negation with `!` converts it to `0`. The logical negation of `0` is `1`.

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In C booleans are integers where 0 is `false` and any other value is `true`.

`!` is NOT (as you know) so it turns any value that is not 0 into 0 and it turns 0 into 1.

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What do you mean by "logic"?

The specific behavior of `!` operator? It is defined by the language standard. It produces `0` for non-zero argument. And `1` for zero argument. That's the way it is defined.

The rationale behind such definition? Well, it is supposed to implement the `logical-not` behavior. Historically, in C language logical "false" is represented by zero integer values, while everything non-zero is interpreted as logical "true". So, that's what you observe in your experiment. When `!` operator (or any other logical operator in C) has to generate a "true" result, it uses `1` to represent it, not just some arbitrary non-zero value.

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`i` is used like a boolean value:

• If `i != 0`, then `!i == 0`.
• If `i == 0`, then `!i == 1`.
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`!` is a boolean operator that inverts the given input, from true to false and false to true. True is anything that is not zero. False is zero. So, when you `not`ted `1` or `5`, you invert a true value, which prints the integer value of false, 0. Next when you invert a false value, it prints the integer value of true (default 1)