# what is the meaning of the following expression in c++

What is the meaning of the following expression in c++?

``````(variable1 | (variable2 << 8))
``````

What is the meaning of it? And what does it represent?

-

It concatenates the two variables.
Suppose you have two chars, `a` and `b`. `a|b<<8` shifts the `b` 8 bits to the left, `|` sets every bit that is in `a` or `b`.
So in this example the result would be "`ab`".

'a' is 97, 'b' is 98, so bitwise the following happens:

``````a:      01100001
b:              01100010
b<<8:   0110001000000000
a|b<<8: 0110001001100001``````

-
Do you mean "concatenates"? –  Lightness Races in Orbit Sep 20 '11 at 15:23
It does NOT "add" two variables! –  Nawaz Sep 20 '11 at 15:25
@Nawaz You're right, but I'm not a native speaker so I hope you can forgive me ;) –  tstenner Sep 20 '11 at 15:27
@tstenner: You're forgiven. Removed -1. –  Nawaz Sep 20 '11 at 15:27
Note that this is only concatenation when both variables are bytes! –  Phillip Sep 20 '11 at 16:09

`|` is Bitwise OR
`<<` is Bitwise left shift operator

``````   (variable1 | (variable2 << 8))
``````

Left Shifts the `variable2`(8 bit) by `8` and then `OR`s the result with `variable1`(8 bit), resulting output will combine two variables `variable1` and `variable2` to be represented as one variable(16 bit).

-

You might think of it as "concatenating" two variables in a bitwise fashion.

If:

``````x = 00000000 00001000 (16-bit binary)
y = 00000000 00100010 (16-bit binary)
``````

Then:

``````    (y << 8) = 00100010 00000000
x | (y << 8) = 00100010 00001000
``````

What it actually means in the context of the code in which you found it is anybody's guess.

In actual fact, "concatenating" is not accurate if `x` has any bits set in the most significant byte:

If:

``````x = 01000000 00001000 (16-bit binary)
y = 00000000 00100010 (16-bit binary)
``````

Then:

``````    (y << 8) = 00100010 00000000
x | (y << 8) = 01100010 00001000
``````
-

It would make sense if both variables where bytes. In that case it would combine them into one larger variable, so that first come 8 bits of variable2 and then 8 bits of variable1.

-
`variable2` is first. –  Matthew Flaschen Sep 20 '11 at 15:25
Fixed that. It would probably make more sense to use `((variable2 << 8) | variable1)`. –  sim642 Sep 20 '11 at 15:28

If `variable1` and `variable1` are 8-bit values, then it combines them into a single 16-bit value.

-

I don't know what you mean by "meaning" - but this is one variable being bitwise OR'ed with another variable which has been left-shifted by 8 bits (which you can think of as being multiplied by 256).

-

If both `variable1` and `variable` are less than 256, the statement is the same as `variable1 + (variable2*256)`.

More generally though, `|` is binary or and and `<<` is left shift.

``````variable1 = 321;
variable2 = 123;
``````

The binary values would be:

``````variable1 =>  0000 0001 0100 0001
variable2 =>  0000 0000 0111 1011
``````

Left shifting `variable2` by 8 results in:

``````              0111 1011 0000 0000
``````

So `variable1 | (variable2 << 8)` equals

``````              0111 1011 0100 0001
``````

Which is 32065. This is less than 31519 which is the result of (321 + (123 * 256)) because `variable1` and `variable2 << 8` have some bits in common.

-

In your code, the 8 least significant (rightmost) bits of `variable1` are appended to the bits of `variable2` from the right, with the bits of `variable2` being shifted left by 8.

If denote the bits of `variable1` as

``````xxxxxxxxxxxxxxxxxxxxxxxxwxxxxxxx
``````

and the bits of `variable2` as

``````yyyyyyyyzyyyyyyyyyyyyyyyyyyyyyyy
``````

then expression

``````(variable1 | (variable2 << 8))
``````

would result in

``````zyyyyyyyyyyyyyyyyyyyyyyywxxxxxxx
``````
-