Unicode: Difference between revisions
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| wikipedia: utf-8 || https://en.wikipedia.org/wiki/UTF-8 | | wikipedia: utf-8 || https://en.wikipedia.org/wiki/UTF-8 | ||
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| Unicode in C++ (video) || https://www.youtube.com/watch?v=tOHnXt3Ycfo | |||
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</blockquote><!-- Documentation --> | </blockquote><!-- Documentation --> | ||
= Tutorials = | |||
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| tl;dr unicode || https://www.joelonsoftware.com/2003/10/08/the-absolute-minimum-every-software-developer-absolutely-positively-must-know-about-unicode-and-character-sets-no-excuses/ | |||
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== UTF-7 == | == UTF-7 == | ||
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A proposed alternative to UTF-8. It is infrequently used, and denylisted from [[ | A proposed alternative to UTF-8. It is infrequently used, and denylisted from [[HTML|HTML5]].<br> | ||
See [https://en.wikipedia.org/wiki/UTF-7 wikipedia]. | |||
</blockquote><!-- UTF-7 --> | </blockquote><!-- UTF-7 --> | ||
Latest revision as of 15:01, 8 August 2022
Unicode is a standard for text encoding.
It defines a mapping of integers to characters in various languages (code-points).
Various text-encodings alter how the integer is divided across byte(s),
but regardless of it's composition, the assigned number/character is constant.
For example, UTF-8 uses the first 1-5 bits of a byte to indicate the type of byte, and if the number spans multiple bytes.
The remaining bits are assembled into one large integer, that refers to a code-point/character.
UTF-1,7,8,16,32 all map to the same character set defined by unicode.
Documentation
wikipedia: unicode https://en.wikipedia.org/wiki/Unicode wikipedia: utf-8 https://en.wikipedia.org/wiki/UTF-8 Unicode in C++ (video) https://www.youtube.com/watch?v=tOHnXt3Ycfo
Tutorials
tl;dr unicode https://www.joelonsoftware.com/2003/10/08/the-absolute-minimum-every-software-developer-absolutely-positively-must-know-about-unicode-and-character-sets-no-excuses/
Endianness
Since unicode encodings use multiple bytes per character,
we need to know the order in which to read the bytes.The first 2-bytes of a file or text-stream contain the byte order mark
which indicate if this is big endian, or little endian.For more details, see endianness.
254 255 # (0xFEFF) big endian 255 254 # (0xFFFE) little endian
Encodings
UTF-1
UTF-7
A proposed alternative to UTF-8. It is infrequently used, and denylisted from HTML5.
See wikipedia.UTF-8
Predominantly used by the internet.
- the smallest unit is 8-bits
- reverse compatible with ASCII
- multiple bytes may be used for characters (1-4 bytes may be used)
- UTF-8 is extendable, we can add a 5th byte later if we need it.
- byte-order NOT determined by system's endianness
01111111 # ascii only uses 7-bits, the leading bit is always 0 1....... # utf-8 puts a '1' in the leading bit to indicate a multi-byte character # the number of leading '1's in the first byte of a multi-byte character # indicates how many following bytes will be used to represent the character # (this one will have 3x bytes after it) 1110.... # each following byte will have the prefix '10', indicating it is a 'continuation byte' 10...... # a byte beginning with '0' indicates this is ascii, and no following bytes are required 0.......When looking up a multibyte character, all bytes are combined into one very large binary integer.
# byte-1 byte-2 byte-3 byte-4 [1110]1001 [10]100100] [10]010010 [10]000000 # combine to the binary number 1001 100100 010010 000000 1001100100010010000000 # in decimal 2507904UTF-16
Predominantly used by windows.
- the smallest unit is 16-bits
- all characters use either 2-bytes, or 4-bytes
- not compatible with ASCII - it must be re-encoded
- byte order determined by endianness
UTF-32
UTF-32 always uses 4-bytes for every character.
Like ASCII, it is a 1:1 mapping between characters and code-points.
- the smallest unit is 32-bits
- byte order determined by endianness
# code-point for 'd' is 100 # in binary, this is 0b1100100 # in UTF-32 this is # [byte-1] [byte-2] [byte-3] [byte-4] 0b00000000 0b00000000 0b00000000 0b01100100