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109 lines
4.8 KiB
Plaintext
109 lines
4.8 KiB
Plaintext
Brief explanation of the hyphenation algorithm herein.[1]
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Raph Levien <raph@acm.org>
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4 Aug 1998
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The hyphenation algorithm is basically the same as Knuth's TeX
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algorithm. However, the implementation is quite a bit faster.
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The hyphenation files from TeX can almost be used directly. There
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is a preprocessing step, however. If you don't do the preprocessing
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step, you'll get bad hyphenations (i.e. a silent failure).
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Start with a file such as hyphen.us. This is the TeX ushyph1.tex
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file, with the exception dictionary encoded using the same rules as
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the main portion of the file. Any line beginning with % is a comment.
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Each other line should contain exactly one rule.
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Then, do the preprocessing - "perl substrings.pl hyphen.us". The
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resulting file is hyphen.mashed. It's in Perl, and it's fairly slow
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(it uses brute force algorithms; about 17 seconds on a P100), but it
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could probably be redone in C with clever algorithms. This would be
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valuable, for example, if it was handle user-supplied exception
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dictionaries by integrating them into the rule table.[2]
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Once the rules are preprocessed, loading them is quite quick -
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about 200ms on a P100. It then hyphenates at about 40,000 words per
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second on a P100. I haven't benchmarked it against other
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implementations (both TeX and groff contain essentially the same
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algorithm), but expect that it runs quite a bit faster than any of
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them.
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Knuth's algorithm
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This section contains a brief explanation of Knuth's algorithm, in
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case you missed it from the TeX books. We'll use the semi-word
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"example" as our running example.
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Since the beginning and end of a word are special, the algorithm is
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actually run over the prepared word (prep_word in the source)
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".example.". Knuths algorithm basically just does pattern matches from
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the rule set, then applies the matches. The patterns in this case that
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match are "xa", "xam", "mp", and "pl". These are actually stored as
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"x1a", "xam3", "4m1p", and "1p2l2". Whenever numbers appear between
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the letters, they are added in. If two (or more) patterns have numbers
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in the same place, the highest number wins. Here's the example:
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. e x a m p l e .
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x1a
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x a m3
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4m1p
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1p2l2
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-----------------
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. e x1a4m3p2l2e .
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Finally, hyphens are placed wherever odd numbers appear. They are,
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however, suppressed after the first letter and before the last letter
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of the word (TeX actually suppresses them before the next-to-last, as
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well). So, it's "ex-am-ple", which is correct.
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Knuth uses a trie to implement this. I.e. he stores each rule in a
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trie structure. For each position in the word, he searches the trie,
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searching for a match. Most patterns are short, so efficiency should
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be quite good.
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Theory of the algorithm
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The algorithm works as a slightly modified finite state machine.
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There are two kinds of transitions: those that consume one letter of
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input (which work just like your regular finite state machine), and
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"fallback" transitions, which don't consume any input. If no
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transition matching the next letter is found, the fallback is used.
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One way of looking at this is a form of compression of the transition
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tables - i.e. it behaves the same as a completely vanilla state
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machine in which the actual transition table of a node is made up of
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the union of transition tables of the node itself, plus its fallbacks.
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Each state is represented by a string. Thus, if the current state
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is "am" and the next letter is "p", then the next state is "amp".
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Fallback transitions go to states which chop off one or (sometimes)
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more letters from the beginning. For example, if none of the
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transitions from "amp" match the next letter, then it will fall back
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to "mp". Similarly, if none of the transitions from "mp" match the
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next letter, it will fall back to "m".
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Each state is also associated with a (possibly null) "match"
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string. This represents the union of all patterns which are
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right-justified substrings of the match string. I.e. the pattern "mp"
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is a right-justified substring of the state "amp", so it's numbers get
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added in. The actual calculation of this union is done by the
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Perl preprocessing script, but could probably be done in C just about
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as easily.
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Because each state transition either consumes one input character
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or shortens the state string by one character, the total number of
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state transitions is linear in the length of the word.
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[1] Documentations:
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Franklin M. Liang: Word Hy-phen-a-tion by Com-put-er.
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Stanford University, 1983. http://www.tug.org/docs/liang.
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László Németh: Automatic non-standard hyphenation in OpenOffice.org,
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TUGboat (27), 2006. No. 2., http://hunspell.sourceforge.net/tb87nemeth.pdf
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[2] There is the C version of pattern converter "substrings.c"
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in the distribution written by Nanning Buitenhuis. Unfortunatelly,
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this version hasn't handled the non standard extension of the
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algorithm, yet.
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