# Confusion with bitwise operations | and <<

``````unsigned long long n = 0;
for (int i = 0; i <= 64; i+=2)
n |= 1ULL << i;       //WHAT DOES THIS DO? AH!
``````

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Is "ULL" of "1ULL" a typo? – octopusgrabbus Jun 14 '12 at 17:10
nope, ULL means "unsigned long long" – pdriegen Jun 14 '12 at 17:12
Though does it really matter if all he's using is the bit pattern? – tskuzzy Jun 14 '12 at 17:17
@tskuzzy on a 64-bit environment, yes. – JoeFish Jun 14 '12 at 17:35
It actually invokes undefined behaviour to shift a 64 bit value by 64 bits -- only 0 to 63 are allowed. Better change the `i <= 64` to `i < 64`. – Secure Jun 14 '12 at 19:33

That line sets the ith bit of n.

• `1ULL` is the integer 1 with type unsigned long long.
• `<<` is a bitshift operator. `1ULL << i` is equal to 2i, or in binary: `100...0` with i zeros.
• `n |= x;` is a compound assignment operator. It is similar to writing `n = n | x;`.
• The operator `|` is the bitwise OR operator.

Wikipedia has an example showing how bitwise OR operator works in the general case:

``````   0101 (decimal 5)
OR 0011 (decimal 3)
= 0111 (decimal 7)
``````

Related

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Thanks, I will accept this. Cleared everything up for me!! – Jordan Jun 14 '12 at 17:18

The `|= 1ULL << i` simply means set the `i`th bit. The for loops over every second bit so every other bit in the 64 bit unsigned long long will be set to 1.

In other words, you will get a bit pattern like `...0101010101`.

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It's left shifting 1 by i places, and OR'ing the result with n. Effectively it's setting bit i in n.

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``````n |= 1ULL << i;       //WHAT DOES THIS DO? AH!
``````

On the right hand side you have `"1ULL" which is a constant 1 unsigned long long`. You are `left bit shifting "1ULL" i number of times`. The result of the left shifting of "1ULL" will then be matched with n to perform a bitwise OR. So `n will be set to (n | (1ULL << i))`.

This entire line or operation is setting the ith bit of n to a 1.

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it binary ORs n with the value 1 bit shifted by the value of i.

I believe the (binary) value of n would be:

1010101010101010101010101010101010101010101010101010101010101010

when the loop completed, although I haven't tested it..

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I didn't see the `i+=2` so I deleted my answer. – bluevector Jun 14 '12 at 17:11