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Bug #17594
closedSort order of UTF-16LE is based on binary representation instead of codepoints
Description
I just discovered that string sorting is always based on bytes, so the order of UTF-16LE strings will give some peculiar results:
BE, LE = 'UTF-16BE', 'UTF-16LE'
str = [*0..0x4ff].pack('U*').scan(/\p{Ll}/).join
puts str.encode(BE).chars.sort.first(50).join.encode('UTF-8')
#abcdefghijklmnopqrstuvwxyzµßàáâãäåæçèéêëìíîïðñòóôõ
puts str.encode(LE).chars.sort.first(50).join.encode('UTF-8')
#āȁăȃąȅćȇĉȉċȋčȍďȏđȑēȓĕȕėȗęșěțĝȝğȟġȡģȣĥȥħȧĩȩīȫĭȭįȯаı
'a'.encode(BE) < 'ā'.encode(BE) #=> true
'a'.encode(LE) < 'ā'.encode(LE) #=> false
Is this supposed to be correct? I mean, I somewhat understand the idea of just sorting by bytes, but I find the above output to be remarkably nonsensical.
A similar/related issue was found and fixed in #8653, so there's precedent for considering codepoints instead of bytes.
The reason I'm asking is because I was working on some optimizations for String#casecmp
(https://github.com/ruby/ruby/pull/4133) which, as a side-effect, sort by codepoint for UTF-16LE. And that resulted in a different order for <=>
vs casecmp
, and thus some tests broke. But I think sorting by codepoint would be better in this case.
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