That algorithm is basically checking if the byte sequence conforms to the pattern that you can see in the Wikipedia article.
for loop is to go through all bytes in
ord gets the decimal number of the current byte. That number is then tested for some properties.
If the number if less than 128 (0x80), it’s a single byte character. If it’s equal or larger than 128, the length of the multi-byte character is checked. That can by done with the first character of a multi-byte character sequence. If the first byte begins with
110xxxxx, it’s a two byte character;
1110xxxx, it’s a three byte character, etc.
I think the most cryptical parts are the expressions like
($c & 0xE0) == 0xC0. That is to check if the number in binary format has some specific pattern. I’ll try to explain how that works on the same example.
Since all numbers we test for that pattern are equal to or greater than 0x80, the first byte is always 1, so the pattern is restricted to at least
1xxxxxxxx. If we then do a bit-wise AND comparison with
11100000 (0xE0), we get this this result:
So the bits at position 5 and 6 (read from the right, index started at 0) depend on what our current number is. To have that equal to
11000000, the 5th bit must be
0 and the 6th bit must be
That means the other bits of our number can be arbitrary:
110xxxxx. And that’s exactly what the pattern in the Wikipedia article predicts for the first byte of a two byte character word.
And last the inner
for loop is to check the sanity of the following bytes of a multi-byte character. Those all must begin with