# Analysing &, && and | for this code?

I want to illustrate the difference with this code

``````for(i = 32; i > 0; i--)
{
if(a&1 != 0) //bit mask
total += b;
a = a >> 1;
b = b << 1;
}
``````

In the code & is used to "mask" a bit and the result would have been completely different if `&&` had been used instead. In that case the expression `1` had been interpreted as a truth value (`TRUE`) instead of a one-bit position that is used to keep one of the bits. Correct? But what would instead happen if I did like this:

``````for(i = 32; i > 0; i--)
{
if(a|1 != 0) //bit mask
total += b;
a = a >> 1;
b = b << 1;
}
``````

In the first case the `1` is used to keep only the LSB (least significant bit) i.e. rightmost bit and nothing else. What would `|`do in its place? What would be the difference if I did this change?

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## 3 Answers

``````a&1 != 0
``````

should be

``````(a&1) != 0
``````

`!=` has higher precedence than `&`. Otherwise `a&1 != 0` is read as `a & (1 != 0)`.

Same for `(a|1 != 0)`.

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That's very interesting since these are taken from course notes in computer engineering where the code should be correct. Thank you for the answer. – Programmer 400 Aug 27 '12 at 15:43
@NickRosencrantz This is a very common mistake. This precedence is counter-intuitive because it is an historical bad design choice made by D. Ritchie. See here for more info: lysator.liu.se/c/dmr-on-or.html – ouah Aug 27 '12 at 15:47
``````(a | 1 ) != 0
``````

Is true always. It has the effect of returning a but with the lowest bit set which is clearly not 0 (at least not in any C implementation I have ever seen). Similarly

``````(a || 1)
``````

is always true, since 1 is true in C and anything or true is true.

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In this very instance, your omission of braces around `a&1` does not change the meaning of the program.

Since `!=` has precedence, it will evaluate `1 != 0` which is `1` and since `!=0` is an utterly redundant statement, it doesn't matter whether you say `if (a OP (1 != 0))` or `if ((a OP 1) != 0)`.

Now, we can look at your second statement and interpret it as you intended: `(a | 1) != 0`. The only value where all bits are zero is `0` which is on the right of the comparison but on the left side you always have a value with at least one bit set (the rightmost). Thus these will in fact never be equal, thus `(a | 1) != 0` is the same as `1`.

So, the difference is that `(a & 1)` actually checks if `a` is odd and increments `total` only then, while `(a | 1)` increments `total` in each iteration as the condition is a tautology.

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