Properties of combining diacritics - unicode

For combining diacritics, are they counted as letters? Since, as far as I know, they can only combine with other letters in well-formed Unicode.
The ICU function to determine if a Unicode codepoint is a letter only takes one codepoint, so for any given codepoint, it can't know if they've been combined with a diacritic- or if it's a diacritic, what it's been combined with. I'm trying to implement something akin to a Unicode-aware regex, using a construct like
while(is_letter(codepoint))
However, I'm quite concerned about what's going to happen if codepoint is actually a diacritic, which would be collated with a previous codepoint, and other collating marks.
Is this safe to do? Or will I have to explicitly find and ignore diacritics and other collating marks?
Edit: What I really need to do is iterate characters, not codepoints.
This question is a victim of the XY problem. I need to raise a question about my actual problem.

I'm not totally clear on what you're trying to do, so I apologize in advance if this isn't the answer you're looking for, but:
For combining diacritics, are they counted as letters?
Broadly speaking, diacritics are counted as "marks" rather than "letters". For example, U+0301 COMBINING ACUTE ACCENT, as in <ś>, is a "nonspacing mark", which is one of three kinds of "mark". However, the "modifier letters", which are counted as "letters", might nonetheless be thought of as diacritics; for example, U+02C0 MODIFIER LETTER GLOTTAL STOP, as in <sˀ>, is a "modifier letter".
If you look through the main file of the Unicode Character Database (warning: it's 1.3 MB text-file), you can get a sense for which characters are classified as "modifier letters" (Lm) and which as "nonspacing marks" (Mn) or "spacing marks" (Ms) or "enclosing marks" (Me).

Related

Are there any real alternatives to unicode?

As a C++ developer supporting unicode is, putting it mildly, a pain in the butt. Unicode has a few unfortunate properties that makes it very hard to determine the case of a letter, convert them or pretty much anything beyond identifying a single known codepoint or so (which may or may not be a letter). The only real rescue, it seems, is ICU for those who are unfortunate enough to not have unicode support builtin the language (i.e. C and C++). Support for unicode in other languages may or may not be good enough.
So, I thought, there must be a real alternative to unicode! i.e. an encoding that does allow easy identification of character classes, besides having a lookup datastructure (tree, table, whatever), and identifying the relationship between characters? I suspect that any such encoding would likely be multi-byte for most text -- that's not a real concern to me, but I accept that it is for others. Providing such an encoding is a lot of work, so I'm not really expecting any such encoding to exist 😞.
Short answer: not that I know of.
As a non-C++ developer, I don't know what specifically is a pain about Unicode, but since you didn't tag the question with C++, I still dare to attempt an answer.
While I'm personally very happy about Unicode in general, I agree that some aspects are cumbersome.
Some of them could arguably be improved if Unicode was redesigned from scratch, eg. by removing some redundancies like the "Latin Greek" math letters besides the actual Greek ones (but that would also break compatibility with older encodings).
But most of the "pains" just reflect the chaotic usage of writing in the first place.
You mention yourself the problem of uppercase "i", which is "I" in some, "İ" in other orthographies, but there are tons of other difficulties – eg. German "ß", which is lowercase, but has no uppercase equivalent (well, it has now, but is rarely used); or letters that look different in final position (Greek "σ"/"ς"); or quotes with inverted meaning («French style» vs. »Swiss style«, “English” vs. „German style“)... I could continue for a while.
I don't see how an encoding could help with that, other than providing tables of character properties, equivalences, and relations, which is what Unicode does.
You say in comments that, by looking at the bytes of an encoded character, you want it to tell you if it's upper or lower case.
To me, this sounds like saying: "When I look at a number, I want it to tell me if it's prime."
I mean, not even ASCII codes tell you if they are upper or lower case, you just memorised the properties table which tells you that 41..5A is upper, 61..7A is lower case.
But it's hard to memorise or hardcode these ranges for all 120k Unicode codepoints. So the easiest thing is to use a table look-up.
There's also a bit of confusion about what "encoding" means.
Unicode doesn't define any byte representation, it only assigns codepoints, ie. integers, to character definitions, and it maintains the said tables.
Encodings in the strict sense ("codecs") are the transformation formats (UTF-8 etc.), which define a mapping between the codepoints and their byte representation.
Now it would be possible to define a new UTF which maps codepoints to bytes in a way that provides a pattern for upper/lower case.
But what could that be?
Odd for upper, even for lower case?
But what about letters without upper-/lower-case distinction?
And then, characters that aren't letters?
And what about all the other character categories – punctuation, digits, whitespace, symbols, combining diacritics –, why not represent those as well?
You could put each in a predefined range, but what happens if too many new characters are added to one of the categories?
To sum it up: I don't think what you ask for is possible.

Unicode Character COMBINING LATIN SMALL LETTER C

What is the likelihood that I'll run into COMBINING LATIN SMALL LETTER C (U+0368) in "real life" (besides clever Scottish folk)?
I'm asking since it's in both the Unicode Block Combining Diacritical Marks and the Category Mark, Nonspacing [Mn].
As a result, it seems to gets treated the same as characters such as COMBINING GRAVE ACCENT (U+0300) by Utilities such as the ICU Transliterator (using either the suggested "NFD; [:Nonspacing Mark:] Remove; NFC" or a straight "Latin-ASCII" transliteration).
The likelihood is very close to zero, but not exactly zero. You cannot prevent anyone from using a Unicode character as he likes. There is no specific information about U+0368 in the Unicode Standard, but it has definitely been defined as a combining character that will cause a symbol (c) to be displayed above the preceding character. I would expect to find it mostly in digitized forms of medieval manuscripts, or something like that.
Using it after a space character, as in the “clever” page mentioned, is not the intended use, but not invalid either. Unicode lets you use any combining mark after any character, whether it makes sense or not.
It has no canonical or compatibility decomposition, so there is no clear-cut way to deal with in a context where you cannot, or do not want to, retain the character.
The likelihood is utterly indeterminate except to say that if you expect it not to occur, then it will occur.

How to enumerate all Unicode canonically equivalent sequences in Perl?

Does there exist a standard Perl module or function that, given a Unicode Combining Character Sequence (or, more generally, an arbitrary Unicode text string), will generate a list of all canonically equivalent strings?
For example, if given the character U+1EAD, I'd like to get back a list of all these canonically equivalent sequences:
0061 0302 0323
0061 0323 0302
00E2 0323
1EA1 0302
1EAD
(I don't particularly care whether the interface is in terms of arrays of USVs or utf strings.)
Is this an XY problem? If you want to compare/match 2 unicode strings and you're worried that different ways of encoding the accented characters would create false negatives, then the best way to do this would be to normalize the 2 strings using one of the normalization functions from Unicode::Normalize, before doing the comparison or match.
Otherwise it gets a little messy.
You could get the complete character name using charnames::viacode(0x1EAD); (for U+1EAD it would be LATIN SMALL LETTER A WITH CIRCUMFLEX AND DOT BELOW), and get the various composing characters by splitting the name on WITH|AND. Then you could generate all combinations (checking that they exist!) of the base character + modifiers and the other modifiers. At this point you will run into the problem of matching the combining characters names in the full name (eg CIRCUMFLEX) with the combining character real name (COMBINING CIRCUMFLEX ACCENT). There are probably rules for this, but I don't know them.
This would be my naive attempt, there may be better ways of doing this, but since so far no one has volunteered the information...

What is the range of Unicode Printable Characters?

Can anybody please tell me what is the range of Unicode printable characters? [e.g. Ascii printable character range is \u0020 - \u007f]
See, http://en.wikipedia.org/wiki/Unicode_control_characters
You might want to look especially at C0 and C1 control character http://en.wikipedia.org/wiki/C0_and_C1_control_codes
The wiki says, the C0 control character is in the range U+0000—U+001F and U+007F (which is the same range as ASCII) and C1 control character is in the range U+0080—U+009F
other than C-control character, Unicode also has hundreds of formatting control characters, e.g. zero-width non-joiner, which makes character spacing closer, or bidirectional text control. This formatting control characters are rather scattered.
More importantly, what are you doing that requires you to know Unicode's non-printable characters? More likely than not, whatever you're trying to do is the wrong approach to solve your problem.
This is an old question, but it is still valid and I think there is more to usefully, but briefly, say on the subject than is covered by existing answers.
Unicode
Unicode defines properties for characters.
One of these properties is "General Category" which has Major classes and subclasses. The Major classes are Letter, Mark, Punctuation, Symbol, Separator, and Other.
By knowing the properties of your characters, you can decide whether you consider them printable in your particular context.
You must always remember that terms like "character" and "printable" are often difficult and have interesting edge-cases.
Programming Language support
Some programming languages assist with this problem.
For example, the Go language has a "unicode" package which provides many useful Unicode-related functions including these two:
func IsGraphic(r rune) bool
IsGraphic reports whether the rune is defined as a Graphic by Unicode. Such
characters include letters, marks, numbers, punctuation, symbols, and spaces,
from categories L, M, N, P, S, Zs.
func IsPrint(r rune) bool
IsPrint reports whether the rune is defined as printable by Go. Such
characters include letters, marks, numbers, punctuation, symbols, and
the ASCII space character, from categories L, M, N, P, S and the ASCII
space character. This categorization is the same as IsGraphic except
that the only spacing character is ASCII space, U+0020.
Notice that it says "defined as printable by Go" not by "defined as printable by Unicode". It is almost as if there are some depths the wizards at Unicode dare not plumb.
Printable
The more you learn about Unicode, the more you realise how unexpectedly diverse and unfathomably weird human writing systems are.
In particular whether a particular "character" is printable is not always obvious.
Is a zero-width space printable? When is a hyphenation point printable? Are there characters whose printability depends on their position in a word or on what characters are adjacent to them? Is a combining-character always printable?
Footnotes
ASCII printable character range is \u0020 - \u007f
No it isn't. \u007f is DEL which is not normally considered a printable character. It is, for example, associated with the keyboard key labelled "DEL" whose earliest purpose was to command the deletion of a character from some medium (display, file etc).
In fact many 8-bit character sets have many non-consecutive ranges which are non-printable. See for example C0 and C1 controls.
First, you should remove the word 'UTF8' in your question, it's not pertinent (UTF8 is just one of the encodings of Unicode, it's something orthogonal to your question).
Second: the meaning of "printable/non printable" is less clear in Unicode. Perhaps you mean a "graphical character" ; and one can even dispute if a space is printable/graphical. The non-graphical characters would consist, basically, of control characters: the range 0x00-0x0f plus some others that are scattered.
Anyway, the vast majority of Unicode characters (more than 200.000) are "graphical". But this certainly does not imply that they are printable in your environment.
It seems to me a bad idea, if you intend to generate a "random printable" unicode string, to try to include all "printable" characters.
What you should do is pick a font, and then generate a list of which Unicode characters have glyphs defined for your font. You can use a font library like freetype to test glyphs (test for FT_Get_Char_Index(...) != 0).
Taking the opposite approach to #HoldOffHunger, it might be easier to list the ranges of non-printable characters, and use not to test if a character is printable.
In the style of Regex (so if you wanted printable characters, place a ^):
[\u0000-\u0008\u000B-\u001F\u007F-\u009F\u2000-\u200F\u2028-\u202F\u205F-\u206F\u3000\uFEFF]
Which accounts for things like separator spaces and joiners
Note that unlike their answer which is a whitelist that ignores all non-latin languages, this blacklist wont permit non-printable characters just because they're in blocks with printable characters (their answer wholly includes Non-Latin, Language Supplement blocks as 'printable', even though it contains things like 'zero-width non-joiner'..).
Be aware though, that if using this or any other solution, for sanitation for example, you may want to do something more nuanced than a blanket replace.
Arguably in that case, non-breaking spaces should change to space, not be removed, and invisible separator should be replaced with comma conditionally.
Then there's invalid character ranges, either [yet] unused or reserved for encoding purposes, and language-specific variation selectors..
NB when using regular expressions, that you enable unicode awareness if it isn't that way by default (for javascript it's via /.../u).
You can tell if you have it correct by attempting to create the regular expression with some multi-byte character ranges.
For example, the above, plus the invalid character range \u{E0100}-\u{E01EF} in javascript:
/[\u0000-\u0008\u000B-\u001F\u007F-\u009F\u2000-\u200F\u2028-\u202F\u205F-\u206F\u3000\uFEFF\u{E0100}-\u{E01EF}]/u
Without u \u{E0100}-\u{E01EF} equates to \uDB40(\uDD00-\uDB40)\uDDEF, not (\uDB40\uDD00)-(\uDB40\uDDEF), and if replacing you should always enable u even when not including multbyte unicode in the regex itself as you might break surrogate pairs that exist in the text.
What characters are valid?
At present, Unicode is defined as starting from U+0000 and ending at U+10FFFF. The first block, Basic Latin, spans U+0000 to U+007F and the last block, Supplementary Private Use Area-B, spans U+100000 to 10FFFF. If you want to see all of these blocks, see here: Wikipedia.org: Unicode Block; List of Blocks.
Let's break down what's valid/invalid in the Latin Block1.
The Latin Block: TLDR
If you're interested in filtering out either invisible characters, you'll want to filter out:
U+0000 to U+0008: Control
U+000E to U+001F: Device (i.e., Control)
U+007F: Delete (Control)
U+008D to U+009F: Device (i.e., Control)
The Latin Block: Full Ranges
Here's the Latin block, broken up into smaller sections...
U+0000 to U+0008: Control
U+0009 to U+000C: Space
U+000E to U+001F: Device (i.e., Control)
U+0020: Space
U+0021 to U+002F: Symbols
U+0030 to U+0039: Numbers
U+003A to U+0040: Symbols
U+0041 to U+005A: Uppercase Letters
U+005B to U+0060: Symbols
U+0061 to U+007A: Lowercase Letters
U+007B to U+007E: Symbols
U+007F: Delete (Control)
U+0080 to U+008C: Latin1-Supplement symbols.
U+008D to U+009F: Device (i.e., Control)
U+00A0: Non-breaking space. (i.e., )
U+00A1 to U+00BF: Symbols.
U+00C0 to U+00FF: Accented characters.
The Other Blocks
Unicode is famous for supporting non-Latin character sets, so what are these other blocks? This is just a broad overview, see the wikipedia.org page for the full, complete list.
Latin1 & Latin1-Related Blocks
U+0000 to U+007F : Basic Latin
U+0080 to U+00FF : Latin-1 Supplement
U+0100 to U+017F : Latin Extended-A
U+0180 to U+024F : Latin Extended-B
Combinable blocks
U+0250 to U+036F: 3 Blocks.
Non-Latin, Language blocks
U+0370 to U+1C7F: 55 Blocks.
Non-Latin, Language Supplement blocks
U+1C80 to U+209F: 11 Blocks.
Symbol blocks
U+20A0 to U+2BFF: 22 Blocks.
Ancient Language blocks
U+2C00 to U+2C5F: 1 Block (Glagolitic).
Language Extensions blocks
U+2C60 to U+FFEF: 66 Blocks.
Special blocks
U+FFF0 to U+FFFF: 1 Block (Specials).
One approach is to render each character to a texture and manually check if it is visible. This solution excludes spaces.
I've written such a program and used it to determine there are roughly 467241 printable characters within the first 471859 code points. I've selected this number because it covers all of the first 4 Planes of Unicode, which seem to contain all printable characters. See https://en.wikipedia.org/wiki/Plane_(Unicode)
I would much like to refine my program to produce the list of ranges, but for now here's what I am working with for anyone who needs immediate answers:
https://editor.p5js.org/SamyBencherif/sketches/_OE8Y3kS9
I am posting this tool because I think this question attracts a lot of people who are looking for slightly different applications of knowing printable ranges. Hopefully this is useful, even though it does not fully answer the question.
The printable Unicode character range, excluding the hex, is 32 to 126 in the int datatype.
Unicode, stict term, has no range. Numbers can go infinite.
What you gave is not UTF8 which has 1 byte for ASCII characters.
As for the range, I believe there is no range of printable characters. It always evolves. Check the page I gave above.

Find similar ASCII character in Unicode

Does someone know a easy way to find characters in Unicode that are similar to ASCII characters. An example is the "CYRILLIC SMALL LETTER DZE (ѕ)". I'd like to do a search and replace for similar characters. By similar I mean human readable. You can't see a difference by looking at it.
As noted by other commenters, Unicode normalisation ("compatibilty characters") isn't going to help you here as you aren't looking for official equivalences but for similarities in glyphs (letter shapes). (The linked Unicode Technical Report is still worth reading, though, as it is extremely well written.)
If I were you, to spare you the tedious work of assembling a list of characters yourself, I'd search for resources on homograph attacks: This is a method of maliciously misleading web users by displaying URLs containing domain names in which some letters have been replaced with visually similar letters. Another Unicode Technical Report, on security, contains a section on the problem. There is also -- and that may be what you most need -- a "confusables" table. Here's another article with mainly punctuation marks, some of which ASCII, that have visually similar counterparts in the non-ASCII code tables.
What I do hope is that you aren't asking the question to construct such an attack.
See the Unicode Database: http://www.unicode.org/Public/UNIDATA/UnicodeData.txt.
Each line describes a unicode caharacter, for example:
1E9A;LATIN SMALL LETTER A WITH RIGHT HALF RING;Ll;0;L;<compat> 0061 02BE;;;;N;;;;;
If there's any similar (compatible) characters for that symbol, it will appear in the <compat> field of the entry. In this example, 0061 (ASCII a) is compatible to the LATIN SMALL LETTER A WITH RIGHT HALF RING Unicode character.
As for your character, the entry is
0455;CYRILLIC SMALL LETTER DZE;Ll;0;L;;;;;N;;;0405;;0405
which, as you can see, does not specify a compatibility character.