# Pipe operator, how does it work?

So I have messing around just now and wrote this out:

``````        int i = 0|1|2|3|4|5|6|7|8|9|10;

Console.WriteLine(i.ToString());
``````

This outputs 15. Why does it output 15? What does the pipe operator do?

Could you give me an example of where this might actually be used.

I understand if this seems like a pointless question.

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It's the bit-wise OR operator

The basic truth table for the OR operator is:

``````  A  B  A|B
0  0   0
0  1   1
1  0   1
1  1   1
``````

So to analyze your case `0|1|2|3|4|5|6|7|8|9|10`, in binary, that's:

`````` 0 = 0b00000
1 = 0b00001
2 = 0b00010
3 = 0b00011
4 = 0b00100
5 = 0b00101
6 = 0b00110
7 = 0b00111
8 = 0b01000
9 = 0b01001
10 = 0b01010
------------
15 = 0b01111
``````

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And suddenly it's explained. –  plast1K Apr 2 '13 at 20:44
@Plast1k you could have easily explained this as well LOL –  MethodMan Apr 2 '13 at 20:46
I do not believe I could have! I have seen truth tables before, but wasn't really able to apply them in this fashion. This helped immensely. –  plast1K Apr 2 '13 at 20:47
I looked at this from something I learned in a Math class for Electronics I took back in the 8th grade over 30+ yrs ago.. lol it's like riding a bike `AND OR NOT NOR NAND` etc...LOL –  MethodMan Apr 2 '13 at 20:49
Definitely confusing stuff, but you're right, it does come back. –  plast1K Apr 2 '13 at 20:50

You are taking the bit-wise OR of the binary representation of those numbers. The numbers 0 through 10 in binary look like:

``````0000
0001
0010
0011
0100
0101
0110
0111
1000
1001
1010
``````

If you were to perform an OR of each digit of all of those numbers, you would end up with `1111` - which is 15 in decimal.

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I think an easier way to figure out the number is use the old `8421` method and where ever you see a `1`, you add the values for example `1001 = 9` if you wanted 16 it would be `10000` –  MethodMan Apr 2 '13 at 20:51

`|` is the bitwise OR operator in C# (and many other languages). An OR operation between two bits goes like this:

``````0 | 0 = 0
1 | 0 = 1
0 | 1 = 1
1 | 1 = 1
``````

so in decimal 1 | 2 becomes 01 | 10 in binary, which results in 11 (3 in decimal), like so:

``````01
10
--
11
``````

Bitwise OR is a cumulative operation so:

`````` 0 = 00000
1 = 00001
2 = 00010
3 = 00011
4 = 00100
5 = 00101
6 = 00110
7 = 00111
8 = 01000
9 = 01001
10 = 01010
------------
15 = 01111
``````
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