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I was playing around with the Bool type (Boolean Variable) and typed this:

#include <iostream>

int main(void)
using std::cout;
using std::cin;
using std::endl;

bool $ok = false & true;

if($ok == true)
    cout << "The value is True." << endl;
else if($ok == false)
    cout << "The value is false." << endl;

return 0;


I know the differences between using the bitwise operator "&" and the logical operator "&&", but I do not see how this produces a false (0) value. I know if i swapped the bitwise operator and used a '+' the expression (0+1) would cause it to evaluate to true. Can someone explain why this:

bool $ok = false & true;

evaluates to false? Thanks.

share|improve this question
Why did you expect it to be true? – user2357112 Dec 3 '13 at 4:51
I could be way off here, but wouldn't using the bitwise operator '&' with both the false and true predefined literals (0 ,1) that it would produce a true value? I don't know how/why it would or wouldn't, that's why I'm asking for help. – Jake2k13 Dec 3 '13 at 4:55
Do you know how to compute a bitwise and? If not, here's a reference. Short answer, no. – user2357112 Dec 3 '13 at 4:57
Thanks, I don't know too much about it, I just know the differences between '&&' and '&' is all. I'm self taught and could use as many resources to learn as possible. – Jake2k13 Dec 3 '13 at 4:59
up vote 2 down vote accepted

false=0(0x00000000) true=1(0x00000001)

Now when we do bitwise and operator of (false & true)---(0&1=0).

         &  0x00000001

Hence the result is 0(0x00000000)

share|improve this answer

Why would this be true? false converts to a 0-valued integer. true converts to a non-zero valued integer (normally 1, but this is not guaranteed). 0 & x for any x is always 0. 0 == false by definition of the integer/boolean interactions, thus the false branch is entered.

For what it's worth, over a domain of 0 and 1, with 0 as false and 1 as true, * maps to AND whereas + maps to OR. Given this, I'm not quite sure why you'd expect + and & to give the sameresults.

x * y != 0 iff x != 0 and y != 0
x + y != 0 iff x != 0 or y != 0

It's also worth mentioning that bit-wise operations on signed types tend to be a bad idea. If you're going to treat integers as bitfields, use unsigned integral types where the rules around the operations are much more natural and intuitive.

share|improve this answer

It's because false is 0 (when converted from boolean-land to integer-land), while true is 1 (when converted from boolean-land to integer-land).

false & true == 0 & 1 == 0 == false
false + true == 0 + 1 == 1 == true

If the magic of & is a mystery to you, there are lots of great resources on bitwise-and.

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