# NOT of 64 bit number giving wrong results in c

there are two numbers a and b, both 64 bits.

Code:

a = a|b;

if(!(a&b)){ }

Now in the above scenario b's 34th bit is on and a have some bits on. So, according to the situation !(a&b) should result in 0 but the code is entering in the if loop which is wrong. The problem is that !(a&b) is giving 1 instead of 0. Any reasons?

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After `a = a|b;` you have `(a&b) == b`. So I see three possibilities: 1) `b` is 0, contrary to what you think, 2) your actual code is different, 3) the compiler is buggy. –  Daniel Fischer Jun 18 '13 at 18:53
b = 1<<33 which is not 0 and the actual code uses the same situation and compiler is gcc which is definitely not buggy. –  rahul.jain Jun 18 '13 at 18:56
Ah, but `1 << 33` shifts an `int`. If `int` is, as usual, 32 bits wide, that's undefined behaviour, and may result in `b` being 0 (if the `1 << 33` appears as such in the source code, gcc does that; the shift is evaluated at compile time, then masked to 32 bits). Use `1ull << 33` instead. –  Daniel Fischer Jun 18 '13 at 18:58
actually b = 1ull<<33 (missed in my previous comment). –  rahul.jain Jun 18 '13 at 18:58
Can you provide example code that reproduces the issue, it would help to reduce guesswork. –  Shafik Yaghmour Jun 18 '13 at 18:59

Since you didn't want to make an SSCE, I made one for you:

``````#include <stdio.h>

int main(void) {
unsigned long long a = 42, b = 1ULL << 33;

a = a|b;
if(!(a&b))
printf("!(a&b)\n");
else
printf("(a&b)\n");

return 0;
}
``````

and ran it at ideone. It outputs `(a&b)` as expected. Your problem is not in the code you are showing us.

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