Trying to understand the subtleties of modern Unicode is making my head hurt. In particular, the distinction between code points, characters, glyphs and graphemes - concepts which in the simplest case, when dealing with English text using ASCII characters, all have a one-to-one relationship with each other - is causing me trouble.

Seeing how these terms get used in documents like Matthias Bynens' JavaScript has a unicode problem or Wikipedia's piece on Han unification, I've gathered that these concepts are not the same thing and that it's dangerous to conflate them, but I'm kind of struggling to grasp what each term means.

The Unicode Consortium offers a glossary to explain this stuff, but it's full of "definitions" like this:

Abstract Character. A unit of information used for the organization, control, or representation of textual data. ...

...

Character. ... (2) Synonym for abstract character. (3) The basic unit of encoding for the Unicode character encoding. ...

...

Glyph. (1) An abstract form that represents one or more glyph images. (2) A synonym for glyph image. In displaying Unicode character data, one or more glyphs may be selected to depict a particular character.

...

Grapheme. (1) A minimally distinctive unit of writing in the context of a particular writing system. ...

Most of these definitions possess the quality of sounding very academic and formal, but lack the quality of meaning anything, or else defer the problem of definition to yet another glossary entry or section of the standard.

So I seek the arcane wisdom of those more learned than I. How exactly do each of these concepts differ from each other, and in what circumstances would they not have a one-to-one relationship with each other?

up vote 104 down vote accepted
  • Character is an overloaded term than can mean many things.

  • A code point is the atomic unit of information. Text is a sequence of code points. Each code point is a number which is given meaning by the Unicode standard.

  • A code unit is the unit of storage of a part of an encoded code point. In UTF-8 this means 8-bits, in UTF-16 this means 16-bits. A single code unit may represent a full code point, or part of a code point. For example, the snowman glyph () is a single code point but 3 UTF-8 code units, and 1 UTF-16 code unit.

  • A grapheme is a sequence of one or more code points that are displayed as a single, graphical unit that a reader recognizes as a single element of the writing system. For example, both a and ä are graphemes, but they may consist of multiple code points (e.g. ä may be two code points, one for the base character a followed by one for the diaresis; but there's also an alternative, legacy, single code point representing this grapheme). Some code points are never part of any grapheme (e.g. the zero-width non-joiner, or directional overrides).

  • A glyph is an image, usually stored in a font (which is a collection of glyphs), used to represent graphemes or parts thereof. Fonts may compose multiple glyphs into a single representation, for example, if the above ä is a single code point, a font may chose to render that as two separate, spatially overlaid glyphs. For OTF, the font's GSUB and GPOS tables contain substitution and positioning information to make this work. A font may contain multiple alternative glyphs for the same grapheme, too.

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    Would be nice if this answer included code-units. – Micah Zoltu Sep 15 '16 at 18:47
  • @MicahZoltu: Meh, I'm not sure. Now you just threw a ton of terms in there that aren't defined, and the example lacks explanatory detail and abuses the term "character"... – Kerrek SB Feb 23 '17 at 20:41
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    I just submitted an edit that re-arranged the order of code-point and code-unit. I agree with you that code-unit should come second. As for being "out of place", I suspect you see this answer as serving a different purpose than I do. I think there is great value in having all 5 of these terms in one place. The last thing I want is to google for "what is the difference between glyph, grapheme, code unit and code point and have to get the answer in two places. In a lot of discussions these terms are all used in the discussion, rarely do I see a discussion with the other 4 but not code-unit. – Micah Zoltu Jun 1 '17 at 0:23
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    @qbolec: Those are two UTF-16 code units expressing a single code point (U+1F40A), and given that it's an emoji, it's presumably its own, single grapheme. – Kerrek SB Sep 11 '17 at 12:51
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    @TomPažourek: In decomposed canonicalization, it's represented by two codepoints (a plus "combining diacritic"); in composed canonicalization it's represented by a single codepoint (ä from the old legacy Latin-1 range). Unicode canonicalization is the subject you want to investigate if this interests you. In a blank-slate world, there would only be base and combining characters and no prebuilt composites. – Kerrek SB Sep 24 '17 at 21:56

Outside the Unicode standard a character is an individual unit of text composed of one or more graphemes. What the Unicode standard defines as "characters" is actually a mix of graphemes and characters. Unicode provides rules for the interpretation of juxtaposed graphemes as individual characters.

A Unicode code point is a unique number assigned to each Unicode character (which is either a character or a grapheme).

Unfortunately, the Unicode rules allow some juxtaposed graphemes to be interpreted as other graphemes that already have their own code points (precomposed forms). This means that there is more than one way in Unicode to represent a character. Unicode normalization addresses this issue.

A glyph is the visual representation of a character. A font provides a set of glyphs for a certain set of characters (not Unicode characters). For every character, there is an infinite number of possible glyphs.

A Reply to Mark Amery

First, as I stated, there is an infinite number of possible glyphs for each character so no, a character is not "always represented by a single glyph". Unicode doesn't concern itself much with glyphs, and the things it defines in its code charts are certainly not glyphs. The problem is that neither are they all characters. So what are they?

Which is the greater entity, the grapheme or the character? What does one call those graphic elements in text that are not letters or punctuation? One term that springs quickly to mind is "grapheme". It's a word that precisely conjure up the idea of "a graphical unit in a text". I offer this definition: A grapheme is the smallest distinct component in a written text.

One could go the other way and say that graphemes are composed of characters, but then they would be called "Chinese graphemes", and all those bits and pieces Chinese graphemes are composed of would have to be called "characters" instead. However, that's all backwards. Graphemes are the distinct little bits and pieces. Characters are more developed. The phrase "glyphs are composable", would be better stated in the context of Unicode as "characters are composable".

Unicode defines characters but it also defines graphemes that are to be composed with other graphemes or characters. Those monstrosities you composed are a fine example of this. If they catch on maybe they'll get their own code points in a later version of Unicode ;)

There's a recursive element to all this. At higher levels, graphemes become characters become graphemes, but it's graphemes all the way down.

  • A cautious -1; I think this is wrong. You imply that a character can be composed of many graphemes, but always will be represented by a single glyph; I think in fact it is the other way around. Pages like en.wikipedia.org/wiki/N-diaeresis suggest that the combination of a letter with a diacritic (at least one that changes its meaning) forms a distinct new grapheme, and that the diacritic is not a grapheme on its own. Meanwhile, glyphs are clearly composable s͈̘̻̗̝i̙̳̩̯̮̥ͅn̪̭̹̝c̪̣̗̞̜e̥̖̮̫̣̯ͅ ̯ͅI̪͉̜̼̼̣̟̣ ̰̟̥̞̹c͈͔͇̼a̙̹̼̦̲̞n̙̺̳̟ͅ ̤̗d̘̭̙̪̦o̬̲̜̺ ̲̬̝t̺̖̗̩̱h̟̟̱i̹s̹̱.̯̖̝̯̟̜̥ – Mark Amery Apr 14 at 19:20
  • I appreciate the reply, which I just saw. However, I still think that your definition of graphemes is in fact incorrect, or at least at odds with how Unicode defines the word. You dismiss the idea of a grapheme being composed of characters as being "all backwards", but I did a little digging and found unicode.org/L2/L2000/00274-N2236-grapheme-joiner.htm which literally begins with the statement "Graphemes are sequences of one or more encoded characters". – Mark Amery May 2 at 12:02
  • And that statement continues, "...that correspond to what users think of as characters." Even the term "grapheme-joiner", as well as the mechanism behind the term, is illustrative of what I stated at the beginning of my answer: What the Unicode standard defines as "characters" is actually a mix of graphemes and characters. It's cleaner to call graphemes "graphemes" and characters "characters" rather than inventing contortions such as "precomposed characters" and "grapheme clusters". – Poor Yorick May 5 at 10:54

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