# meaning of & in C++

I am bit confused about a expression I found in some C++ code:

``````if (m & 1)
pmm=-pmm;
``````

I am not a C/C++ coder, so Google gives me two things:

1. & is bitwise AND
2. `if` syntax is `if (condition) statement`

So, how does the above statement work? Should I not require a `if ((m & 1)==0)`?

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What is the type of `m`? –  ComicSansMS Sep 9 '13 at 8:27
It is the same as if(!(m % 2)) the c doesn't care what is really in "if" condition, it will be casted to the boolean type and casting will be false when data is 0, true otherwise. –  cerkiewny Sep 9 '13 at 8:27
@cerkiewny - no it isn't. If `m == 2` they evaluate differently. –  David M Sep 9 '13 at 8:28
@DavidM I was typing faster than thinking, corrected the error. –  cerkiewny Sep 9 '13 at 8:31
No, what you have is still wrong. You have inverted the condition. Correct that the test is effectively oddness/evenness, just the wrong way round. –  David M Sep 9 '13 at 8:32

Just to add to the more technical explanations, a simpler way of viewing `if (m & 1)` is that is tests whether `m` is odd (i.e. not an exact multiple of 2):

``````if (m & 1)
// m is odd (1, 3, 5, 7, 9, ...) - do something
else
// m is even (0, 2, 4, 6, 8, ...) - do something else
``````
-

m will be represented in memory as a binary number, in other words: a series of bits. The value 1 will also be represented as a series of bits.

For example (I have chosen 8 bit length for simplicity):

``````m = 00101101
1 = 00000001
``````

Performing a bitwise operation on m will perform the operation you specify, in this case & (AND) on each bit at the same position on each binary number on either side of the & symbol.

i.e. Bit 1 of result = Bit 1 of m & Bit 1 of the value 1. Bit 2 of result = Bit 2 of m & Bit 2 of the value 1 etc...

So for our example:

``````  00101101
& 00000001
---------
00000001
``````

Assuming m is an integer, the bitwise operation will return an integer. The if statement will check if the result is true, and since it is an integer it will be interpreted as true if non-zero.

The result is not zero hence it will return true in our example.

So: By AND-ing an integer with 1 you will end up returning true in your code for odd numbers only, since bit 1 is always 1 for odd numbers.

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This is bitwise AND operator. m & 1 evaluates to 1 if bit 0 is set and every expression that is not 0 is true implicitly.

Following are equivalent expressions:

``````if ((m & 1) == 1) // bitwise AND is 1
if ((m & 1) != 0) // bitwise AND is NOT 0
if (m & 1)
``````

However caution is required if testing more bits. For example m = 1:

`if (m & 3)` is `true` also, but the result is `1`. Better is `if ((m & 3) == 3)` in this case.

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actually, (given that `m` is an unsigned int) `m & 1` evaluates to `1` if bit 1 is set, and 1 in turn converts to the boolean value `true` implicitly; if bit 1 of m is not set, then `m & 1` evaluates to `0`, which converts to `false` –  codeling Sep 9 '13 at 8:27
While those two statements are functionally equivalent, they are not semantically equivalent. If you had `!= 0` rather than `== 1` that might make it clearer to the OP (IMHO)... –  David M Sep 9 '13 at 8:30
Your are both right. Explicit form like `if ((m & TEST) == TEST` is the better solution here. And yes of course `m` need to be an integer type. –  bkausbk Sep 9 '13 at 8:34