For example, "A?" is stored as "410754"
That’s not how UTF-8 works.
Characters U+0000 through U+007F (aka ASCII) are stored as single bytes. They are the only characters whose codepoints numerically match their UTF-8 presentation. For example, U+0041 becomes 0x41
which is 01000001
in binary.
All other characters are represented with multiple bytes. U+0080 through U+07FF use two bytes each, U+0800 through U+FFFF use three bytes each, and U+10000 through U+10FFFF use four bytes each.
Computers know where one character ends and the next one starts because UTF-8 was designed so that the single-byte values used for ASCII do not overlap with those used in multi-byte sequences. The bytes 0x00
through 0x7F
are only used for ASCII and nothing else; the bytes above 0x7F
are only used for multi-byte sequences and nothing else. Furthermore, the bytes that are used at the beginning of the multi-byte sequences also cannot occur in any other position in those sequences.
Because of that the codepoints need to be encoded. Consider the following binary patterns:
- 2 bytes:
110xxxxx 10xxxxxx
- 3 bytes:
1110xxxx 10xxxxxx 10xxxxxx
- 4 bytes:
11110xxx 10xxxxxx 10xxxxxx 10xxxxxx
The amount of ones in the first byte tells you how many of the following bytes still belong to the same character. All bytes that belong to the sequence start with 10
in binary. To encode the character you convert its codepoint to binary and fill in the x’s.
As an example: U+0754 is between U+0080 and U+07FF, so it needs two bytes. 0x0754
in binary is 11101010100
, so you replace the x’s with those digits:
11011101 10010100
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