UTF-8 can contain a BOM. However, it makes no difference as to the endianness of the byte stream. UTF-8 always has the same byte order.
Utf-8 stored all code-points in a single byte, then it would make sense why endianness doesn’t play any role and thus why
BOM isn’t required. But since code points 128 and above are stored using 2, 3 and up to 6 bytes, which means their byte order on big endian machines is different than on little endian machines, so how can we claim
Utf-8 always has the same byte order?
UTF-8 is byte oriented
I understand that if two byte
C consists of bytes
B1 and B2 ( where
B1 is first byte and
B2 is last byte ), then with
UTF-8 those two bytes are always written in the same order ( thus if this character is written to a file on little endian machine
B1 will be first and
B2 last. Similarly, if
C is written to a file on big endian machine
B1 will still be first and
B2 still last).
But what happens when
C is written to file
LEM, but we copy
BEM and try to read it there? Since
BEM automatically swaps bytes (
B1 is now last and
B2 first byte ), how will app ( running on
BEM ) reading
F know whether F was created on
BEM and thus order of two bytes wasn’t swapped or whether
F was transferred from
LEM, in which case
BEM automatically swapped the bytes?
I hope question made some sense
In response to your edit: big-endian machines do not swap bytes if you ask them to read a byte at a time.
a) Oh, so even though character C is 2 bytes longs, app ( residing on BEM ) reading F will read into memory just one byte at the time ( thus it will first read into memory B1 and only then B2 )
In UTF-8, you decide what to do with a byte based on its high-order bits
Assuming file F has two consequent characters C and C1 ( where C consists of bytes B1 and B2 while C1 has bytes B3, B4 and B5 ). How will app reading F know which bytes belong together simply by checking each byte's high-order bits ( for example, how will it figure out that B1 and B2 taken together should represent a character and not B1,*B2* and B3)?
If you believe that you're seeing something different, please edit your question and include
I’m not saying that. I simply didn’t understand what was going on
c)Why aren't Utf-16 and Utf-32 also byte oriented?