This touches on a bunch of subjects, including the historical meaning of a byte, the C definition of a char, and mathematics.

For starters, a byte has historically been a lot of things, but nowadays we nearly always mean an octet, which is 8 bits. As a play on words, there's also the nybble (or often nibble) which is half a byte (not called bite).

Mathematics tells us that with an ordered combination of 8 `1-or-0`

values, we get `2`^{8} = 256

combinations. Sometimes we use this unsigned, sometimes signed, but either way we want to have 0 in the range; so the unsigned range is `0..255`

. For the signed range, we have more options, of which two's complement is the most popular; in that case, we get one more negative value than positive, for a range of `-128..+127`

.

C++ inherits char from C, where it is defined to have a `sizeof`

of 1, to be the smallest addressable size (i.e. having distinct address values with &), and a minimal range of `-128..127`

or `0..255`

depending on if it's signed or not. That boils down to requiring *at least* 8 bits, or one byte; exactly one byte if the machine supports it.

`0xff`

is another way of writing 255. `0x`

is the C way of marking a hexadecimal constant, so each digit in it is 4 bits (for 16 possible digits), ergo the nibble. This translates to an unsigned octet with all bits set to 1.

If specific size matters to your code, there is a header stdint.h that defines types of minimal and exact sizes, for speed or size optimization.

Incidentally, ASCII is a 7-bit character set. Machines with 7-bit bytes are unusual nowadays, and wider character sets like ISO 8859-1 and UTF-8 are popular.

`0xFF`

is 2 digits, not 2 bytes. One byte is 0..2^8-1.`char`

could be 8 bits or it could be 64 bits; in any case "byte" is defined to be "char", so a byte could be more than 8 bits.`char`

, however many bits that is. ISO (and other standards bodies) tend to use the term octet for an 8-bit value. See stackoverflow.com/questions/1535131/… for more info.