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Through reading wikis related to encodings, I have the understanding that utf8 is backwards compatible with ascii.

ascii uses 7 bits to represent codepoints from 0-127. Thus ascii tells us the codepoints and also a way to store them.

unicode on the other hand just gives us the codepoints and the way to store them is left to formats like utf8 and utf16.

Now I understand that unicode code points from 0-127 represent the same characters in ascii as well.

Next I read that there is extended ascii as well and it comes in various flavours like isoLatin1 and isoLatin2 where codepoints from 128-255 are defined as per the flavour being used.

So far so good.

Now lets get back to unicode. Do unicode codepoints from 128-255 represent characters exactly identical to those represented by any one of the extended ascii flavours? If so which one?

Again I could be wrong please correct me if I am wrong.

NOTE: I tried printing the characters and took the manual route of checking them out, but there is a chance of human error and also some characters are control characters and wont print as such.

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The codes from 0 to 255 were choose to be compatible with ASCII and Latin-1. This was selected by design.

Note: There could be some changes on meaning, in the control character (e.g. for new lines you may get just one character).

Unicode was designed to be also a ISO standard, so it was inspired by other ISO standards (e.g. latin-1). "Extended ASCII" is a bad notation. I'm not sure it was ever standardized, Like ANSI (for character set, not the association).

I recommend you to stop guessing and look, e.g. in Wikipedia: https://en.wikipedia.org/wiki/Plane_(Unicode) and https://en.wikipedia.org/wiki/ISO/IEC_8859-1 I think reading such pages (and comparing) it will give you much more understanding of Unicode.

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  • Yes. I think "extended ASCII" was just an informal way of saying "an encoding that has ASCII as the lower 128 chars" (in contrast to, say, EBCDIC), rather than an official definition.
    – Mr Lister
    Aug 9, 2019 at 6:27
  • @MrLister exactly that is the reason I got confused. Extended ASCII is vague and covers more then one encodings. ISO Latin 1 and ISOLatin2 are two different encodings where the range 128-255 represents two different char sets. When unicode is referenced I always read its backward compatible to ASCII. This was good, but then how does it treat the range from 128-255. Is it similar to ISOLatin1 or ISOLatin2. From this answer from Giacomo could we say unicode is backward compliant with ISOLatin1? Aug 9, 2019 at 6:39
  • Yeah. There were a sort of "ANSI": defines some characters but not all from 128 to 255. The other characters are locally defined (e.g. US, Western Europe, ...). ISO added control additional characters and standardized what should be used on the missing. Unicode started from Latin1 (ISO 8859 + ISO 8859-1), and it extended to 65535 character codes (and later it added "planes", so more characters code). All characters in well recognized encoding (until around 1993) should be (per design) included in Unicode Aug 9, 2019 at 7:43
  • @GiacomoCatenazzi from you answer now I have a better understanding. If Codepoints are considered i.e 0-255 Unicode is actually identical with ISOLatin1(ASCII + Standardised extended ASCII) and not only identical to plain ASCII. On the other hand the format utf8 conforming to Unicode, is also identical to ISOLatin if Codepoints are considered. if you take into consideration the storage format utf8 is only compatible with ASCII as it requires one byte to store codepoints ranging from 0-127. 128 onwards utf8 stores characters in 2 bytes and is not compatible to ISOLatin considering storage. Aug 9, 2019 at 10:55
  • "storage format" is "encoding". UTF-8 is invented much later then Unicode. Unicode gives "every character" a numerical code. Encoding then transform the code to a binary representation for the machine. Originally Unicode planed that 16bits were enough for all characters. So early adopter (Microsoft, JavaScrips, Python) used the 2 byte per characters [and wchar on C become trendy]. When Unicode start thinking expanding, a encode compatible with ASCII were invented (UTF-7), but then better UTF-8 (and UTF-16: also this is now variable lenght). Aug 9, 2019 at 11:49

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