# What does AND 0xFF do?

In the following code:

``````short = ((byte2 << 8) | (byte1 & 0xFF))
``````

What is the purpose of `&0xFF`? Because other somestimes I see it written as:

``````short = ((byte2 << 8) | byte1)
``````

And that seems to work fine too?

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Is byte1 of type `uint8_t`? – Shahbaz Feb 5 '13 at 17:17
@Shahbaz Yes... – Muis Feb 5 '13 at 17:20
Then I guess it's only "just to be sure". Probably whoever wrote it was trying to be safe just in case someone changes the type of `byte1`, which seems quite likely because `byte2` already is not 8-bits (otherwise `byte2 << 8` is 0) – Shahbaz Feb 5 '13 at 17:33
Sorry, `byte2 << 8` works even if `byte2` is an 8 bit type. By default expressions always work as `int`. The compiler sees implicitly the expression as `((int)byte2) << ((int)8)` – Patrick Schlüter Feb 5 '13 at 17:40
btw, `short` is a reserved word and can not be used as variable name. – Patrick Schlüter Feb 5 '13 at 17:46

Anding an integer with `0xFF` leaves only the least significant byte. For example, to get the first byte in a `short s`, you can write `s & 0xFF`. This is typically referred to as "masking". If `byte1` is either a single byte type (like `uint8_t`) or is already less than 256 (and as a result is all zeroes except for the least significant byte) there is no need to mask out the higher bits, as they are already zero.

See tristopiaPatrick Schlüter's answer below when you may be working with signed types. When doing bitwise operations, I recommend working only with unsigned types.

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The danger of the second expression comes if the type of `byte1` is `char`. In that case, some implementations can have it `signed char`, which will result in sign extension when evaluating.

``````signed char byte1 = 0x80;
signed char byte2 = 0x10;

unsigned short value1 = ((byte2 << 8) | (byte1 & 0xFF));
unsigned short value2 = ((byte2 << 8) | byte1);

printf("value1=%hu %hx\n", value1, value1);
printf("value2=%hu %hx\n", value2, value2);
``````

will print

``````value1=4224 1080     right
value2=65408 ff80    wrong!!
``````

I tried it on gcc v3.4.6 on Solaris SPARC 64 bit and the result is the same with `byte1` and `byte2` declared as `char`.

TL;DR

The masking is to avoid implicit sign extension.

EDIT: I checked, it's the same behaviour in C++.

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Excellent point about sign extension. – Jerry Coffin Feb 5 '13 at 18:02

if `byte1` is an 8-bit integer type then it's pointless - if it is more than 8 bits it will essentially give you the last 8 bits of the value:

``````    0 1 0 1 0 1 0 1 0 1 0 1 0 1 0 1
&  0 0 0 0 0 0 0 0 1 1 1 1 1 1 1 1
-------------------------------
0 0 0 0 0 0 0 0 0 1 0 1 0 1 0 1
``````
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Assuming your `byte1` is a byte(8bits), When you do a bitwise AND of a byte with 0xFF, you are getting the same byte.

So `byte1` is the same as `byte1 & 0xFF`

Say `byte1` is `01001101` , then `byte1 & 0xFF = 01001101 & 11111111 = 01001101 = byte1`

If byte1 is of some other type say integer of 4 bytes, bitwise AND with 0xFF leaves you with least significant byte(8 bits) of the byte1.

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The `byte1 & 0xff` ensures that only the 8 least significant bits of `byte1` can be non-zero.

if `byte1` is already an unsigned type that has only 8 bits (e.g., `char` in some cases, or `unsigned char` in most) it won't make any difference/is completely unnecessary.

If `byte1` is a type that's signed or has more than 8 bits (e.g., `short`, `int`, `long`), and any of the bits except the 8 least significant is set, then there will be a difference (i.e., it'll zero those upper bits before `or`ing with the other variable, so this operand of the `or` affects only the 8 least significant bits of the result).

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No, see my answer above. If the type of `byte1` is `char` or `signed char` it is absolutely necessary. – Patrick Schlüter Feb 5 '13 at 17:54

it clears the all the bits that are not in the first byte

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`& 0xFF` by itself only ensures that if bytes are longer than 8 bits (allowed by the language standard), the rest are ignored.

And that seems to work fine too?

If the result ends up greater than `SHRT_MAX`, you get undefined behavior. In that respect both will work equally poorly.

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