d3bb77fac4
X-SVN-Rev: 37766
697 lines
17 KiB
Plaintext
697 lines
17 KiB
Plaintext
# Copyright (c) 2002-2015 International Business Machines Corporation and
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# others. All Rights Reserved.
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#
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# file: line_normal_cj.txt
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#
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# Line Breaking Rules
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# Implement default line breaking as defined by
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# Unicode Standard Annex #14 Revision 34 for Unicode 8.0
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# http://www.unicode.org/reports/tr14/
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# tailored as noted in 2nd paragraph below..
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#
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# TODO: Rule LB 8 remains as it was in Unicode 5.2
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# This is only because of a limitation of ICU break engine implementation,
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# not because the older behavior is desirable.
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#
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# This tailors the line break behavior to correspond to CSS
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# line-break=normal (BCP47 -u-lb-normal) as defined for Chinese & Japanese.
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# It sets characters of class CJ to behave like ID.
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# In addition, it allows breaks:
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# * before hyphens 2010 & 2013 (both BA) and 301C, 30A0 (both NS)
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#
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# Character Classes defined by TR 14.
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#
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!!chain;
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!!LBCMNoChain;
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!!lookAheadHardBreak;
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#
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# !!lookAheadHardBreak Described here because it is (as yet) undocumented elsewhere
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# and only used for the line break rules.
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#
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# It is used in the implementation of rule LB 10
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# which says to treat any combining mark that is not attached to a base
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# character as if it were of class AL (alphabetic).
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#
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# The problem occurs in the reverse rules.
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#
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# Consider a sequence like, with correct breaks as shown
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# LF ID CM AL AL
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# ^ ^ ^
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# Then consider the sequence without the initial ID (ideographic)
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# LF CM AL AL
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# ^ ^
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# Our CM, which in the first example was attached to the ideograph,
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# is now unattached, becomes an alpha, and joins in with the other
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# alphas.
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#
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# When iterating forwards, these sequences do not present any problems
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# When iterating backwards, we need to look ahead when encountering
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# a CM to see whether it attaches to something further on or not.
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# (Look-ahead in a reverse rule is looking towards the start)
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#
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# If the CM is unattached, we need to force a break.
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#
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# !!lookAheadHardBreak forces the run time state machine to
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# stop immediately when a look ahead rule ( '/' operator) matches,
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# and set the match position to that of the look-ahead operator,
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# no matter what other rules may be in play at the time.
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#
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# See rule LB 19 for an example.
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#
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$AI = [:LineBreak = Ambiguous:];
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$AL = [:LineBreak = Alphabetic:];
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$BAX = [\u2010 \u2013];
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$BA = [[:LineBreak = Break_After:] - $BAX];
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$BB = [:LineBreak = Break_Before:];
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$BK = [:LineBreak = Mandatory_Break:];
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$B2 = [:LineBreak = Break_Both:];
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$CB = [:LineBreak = Contingent_Break:];
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$CJ = [:LineBreak = Conditional_Japanese_Starter:];
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$CL = [:LineBreak = Close_Punctuation:];
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$CM = [:LineBreak = Combining_Mark:];
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$CP = [:LineBreak = Close_Parenthesis:];
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$CR = [:LineBreak = Carriage_Return:];
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$EX = [:LineBreak = Exclamation:];
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$GL = [:LineBreak = Glue:];
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$HL = [:LineBreak = Hebrew_Letter:];
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$HY = [:LineBreak = Hyphen:];
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$H2 = [:LineBreak = H2:];
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$H3 = [:LineBreak = H3:];
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$ID = [[:LineBreak = Ideographic:] $CJ];
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$IN = [:LineBreak = Inseperable:];
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$IS = [:LineBreak = Infix_Numeric:];
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$JL = [:LineBreak = JL:];
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$JV = [:LineBreak = JV:];
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$JT = [:LineBreak = JT:];
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$LF = [:LineBreak = Line_Feed:];
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$NL = [:LineBreak = Next_Line:];
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$NSX = [\u301C \u30A0];
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$NS = [[:LineBreak = Nonstarter:] - $NSX];
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$NU = [:LineBreak = Numeric:];
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$OP = [:LineBreak = Open_Punctuation:];
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$PO = [:LineBreak = Postfix_Numeric:];
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$PR = [:LineBreak = Prefix_Numeric:];
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$QU = [:LineBreak = Quotation:];
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$RI = [:LineBreak = Regional_Indicator:];
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$SA = [:LineBreak = Complex_Context:];
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$SG = [:LineBreak = Surrogate:];
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$SP = [:LineBreak = Space:];
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$SY = [:LineBreak = Break_Symbols:];
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$WJ = [:LineBreak = Word_Joiner:];
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$XX = [:LineBreak = Unknown:];
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$ZW = [:LineBreak = ZWSpace:];
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# Dictionary character set, for triggering language-based break engines. Currently
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# limited to LineBreak=Complex_Context. Note that this set only works in Unicode
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# 5.0 or later as the definition of Complex_Context was corrected to include all
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# characters requiring dictionary break.
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$dictionary = [:LineBreak = Complex_Context:];
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#
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# Rule LB1. By default, treat AI (characters with ambiguous east Asian width),
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# SA (South East Asian: Thai, Lao, Khmer)
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# SG (Unpaired Surrogates)
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# XX (Unknown, unassigned)
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# as $AL (Alphabetic)
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#
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$ALPlus = [$AL $AI $SA $SG $XX];
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#
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# Combining Marks. X $CM* behaves as if it were X. Rule LB6.
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#
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$ALcm = $ALPlus $CM*;
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$BAcm = $BA $CM*;
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$BAXcm = $BAX $CM*;
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$BBcm = $BB $CM*;
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$B2cm = $B2 $CM*;
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$CLcm = $CL $CM*;
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$CPcm = $CP $CM*;
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$EXcm = $EX $CM*;
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$GLcm = $GL $CM*;
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$HLcm = $HL $CM*;
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$HYcm = $HY $CM*;
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$H2cm = $H2 $CM*;
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$H3cm = $H3 $CM*;
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$IDcm = $ID $CM*;
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$INcm = $IN $CM*;
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$IScm = $IS $CM*;
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$JLcm = $JL $CM*;
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$JVcm = $JV $CM*;
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$JTcm = $JT $CM*;
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$NScm = $NS $CM*;
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$NSXcm = $NSX $CM*;
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$NUcm = $NU $CM*;
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$OPcm = $OP $CM*;
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$POcm = $PO $CM*;
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$PRcm = $PR $CM*;
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$QUcm = $QU $CM*;
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$RIcm = $RI $CM*;
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$SYcm = $SY $CM*;
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$WJcm = $WJ $CM*;
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## -------------------------------------------------
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!!forward;
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#
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# Each class of character can stand by itself as an unbroken token, with trailing combining stuff
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#
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$ALPlus $CM+;
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$BA $CM+;
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$BAX $CM+;
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$BB $CM+;
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$B2 $CM+;
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$CL $CM+;
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$CP $CM+;
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$EX $CM+;
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$GL $CM+;
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$HL $CM+;
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$HY $CM+;
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$H2 $CM+;
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$H3 $CM+;
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$ID $CM+;
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$IN $CM+;
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$IS $CM+;
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$JL $CM+;
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$JV $CM+;
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$JT $CM+;
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$NS $CM+;
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$NSX $CM+;
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$NU $CM+;
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$OP $CM+;
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$PO $CM+;
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$PR $CM+;
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$QU $CM+;
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$RI $CM+;
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$SY $CM+;
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$WJ $CM+;
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#
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# CAN_CM is the set of characters that may combine with CM combining chars.
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# Note that Linebreak UAX 14's concept of a combining char and the rules
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# for what they can combine with are _very_ different from the rest of Unicode.
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#
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# Note that $CM itself is left out of this set. If CM is needed as a base
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# it must be listed separately in the rule.
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#
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$CAN_CM = [^$SP $BK $CR $LF $NL $ZW $CM]; # Bases that can take CMs
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$CANT_CM = [ $SP $BK $CR $LF $NL $ZW $CM]; # Bases that can't take CMs
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#
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# AL_FOLLOW set of chars that can unconditionally follow an AL
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# Needed in rules where stand-alone $CM s are treated as AL.
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# Chaining is disabled with CM because it causes other failures,
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# so for this one case we need to manually list out longer sequences.
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#
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$AL_FOLLOW_NOCM = [$BK $CR $LF $NL $ZW $SP];
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$AL_FOLLOW_CM = [$CL $CP $EX $HL $IS $SY $WJ $GL $OP $QU $BA $HY $NS $IN $NU $ALPlus];
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$AL_FOLLOW = [$AL_FOLLOW_NOCM $AL_FOLLOW_CM];
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#
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# Rule LB 4, 5 Mandatory (Hard) breaks.
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#
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$LB4Breaks = [$BK $CR $LF $NL];
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$LB4NonBreaks = [^$BK $CR $LF $NL];
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$CR $LF {100};
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#
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# LB 6 Do not break before hard line breaks.
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#
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$LB4NonBreaks? $LB4Breaks {100}; # LB 5 do not break before hard breaks.
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$CAN_CM $CM* $LB4Breaks {100};
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$CM+ $LB4Breaks {100};
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# LB 7 x SP
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# x ZW
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$LB4NonBreaks [$SP $ZW];
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$CAN_CM $CM* [$SP $ZW];
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$CM+ [$SP $ZW];
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#
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# LB 8 Break after zero width space
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# TODO: ZW SP* <break>
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# An engine change is required to write the reverse rule for this.
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# For now, leave the Unicode 5.2 rule, ZW <break>
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#
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$LB8Breaks = [$LB4Breaks $ZW];
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$LB8NonBreaks = [[$LB4NonBreaks] - [$ZW]];
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# LB 9 Combining marks. X $CM needs to behave like X, where X is not $SP, $BK $CR $LF $NL
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# $CM not covered by the above needs to behave like $AL
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# See definition of $CAN_CM.
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$CAN_CM $CM+; # Stick together any combining sequences that don't match other rules.
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$CM+;
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#
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# LB 11 Do not break before or after WORD JOINER & related characters.
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#
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$CAN_CM $CM* $WJcm;
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$LB8NonBreaks $WJcm;
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$CM+ $WJcm;
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$WJcm $CANT_CM;
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$WJcm $CAN_CM $CM*;
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#
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# LB 12 Do not break after NBSP and related characters.
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# GL x
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#
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$GLcm $CAN_CM $CM*;
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$GLcm $CANT_CM;
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#
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# LB 12a Do not break before NBSP and related characters ...
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# [^SP BA HY] x GL
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#
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[[$LB8NonBreaks] - [$SP $BA $BAX $HY]] $CM* $GLcm;
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$CM+ GLcm;
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#
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# LB 13 Don't break before ']' or '!' or ';' or '/', even after spaces.
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#
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$LB8NonBreaks $CL;
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$CAN_CM $CM* $CL;
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$CM+ $CL; # by rule 10, stand-alone CM behaves as AL
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$LB8NonBreaks $CP;
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$CAN_CM $CM* $CP;
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$CM+ $CP; # by rule 10, stand-alone CM behaves as AL
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$LB8NonBreaks $EX;
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$CAN_CM $CM* $EX;
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$CM+ $EX; # by rule 10, stand-alone CM behaves as AL
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$LB8NonBreaks $IS;
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$CAN_CM $CM* $IS;
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$CM+ $IS; # by rule 10, stand-alone CM behaves as AL
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$LB8NonBreaks $SY;
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$CAN_CM $CM* $SY;
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$CM+ $SY; # by rule 10, stand-alone CM behaves as AL
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#
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# LB 14 Do not break after OP, even after spaces
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#
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$OPcm $SP* $CAN_CM $CM*;
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$OPcm $SP* $CANT_CM;
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$OPcm $SP+ $CM+ $AL_FOLLOW?; # by rule 10, stand-alone CM behaves as AL
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# LB 15
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$QUcm $SP* $OPcm;
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# LB 16
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# Do not break between closing punctuation and $NS, even with intervening spaces
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# But DO allow a break between closing punctuation and $NSX, don't include it here
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($CLcm | $CPcm) $SP* $NScm;
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# LB 17
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$B2cm $SP* $B2cm;
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#
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# LB 18 Break after spaces.
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#
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$LB18NonBreaks = [$LB8NonBreaks - [$SP]];
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$LB18Breaks = [$LB8Breaks $SP];
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# LB 19
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# x QU
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$LB18NonBreaks $CM* $QUcm;
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$CM+ $QUcm;
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# QU x
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$QUcm .?;
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$QUcm $LB18NonBreaks $CM*; # Don't let a combining mark go onto $CR, $BK, etc.
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# TODO: I don't think this rule is needed.
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# LB 20
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# <break> $CB
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# $CB <break>
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$LB20NonBreaks = [$LB18NonBreaks - $CB];
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# LB 21 x (BA | HY | NS)
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# BB x
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#
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# DO allow breaks here before $BAXcm and $NSXcm, so don't include them
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$LB20NonBreaks $CM* ($BAcm | $HYcm | $NScm);
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$BBcm [^$CB]; # $BB x
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$BBcm $LB20NonBreaks $CM*;
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# LB 21a Don't break after Hebrew + Hyphen
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# HL (HY | BA) x
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#
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$HLcm ($HYcm | $BAcm | $BAXcm) [^$CB]?;
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# LB 21b (forward) Don't break between SY and HL
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# (break between HL and SY already disallowed by LB 13 above)
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$SYcm $HLcm;
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# LB 22
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($ALcm | $HLcm) $INcm;
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$CM+ $INcm; # by rule 10, any otherwise unattached CM behaves as AL
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$EXcm $INcm;
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$IDcm $INcm;
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$INcm $INcm;
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$NUcm $INcm;
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# $LB 23
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$IDcm $POcm;
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$ALcm $NUcm; # includes $LB19
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$HLcm $NUcm;
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$CM+ $NUcm; # Rule 10, any otherwise unattached CM behaves as AL
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$NUcm $ALcm;
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$NUcm $HLcm;
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#
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# LB 24
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#
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$PRcm $IDcm;
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$PRcm ($ALcm | $HLcm);
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$POcm ($ALcm | $HLcm);
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#
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# LB 25 Numbers.
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#
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($PRcm | $POcm)? ($OPcm | $HYcm)? $NUcm ($NUcm | $SYcm | $IScm)* ($CLcm | $CPcm)? ($PRcm | $POcm)?;
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# LB 26 Do not break a Korean syllable
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#
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$JLcm ($JLcm | $JVcm | $H2cm | $H3cm);
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($JVcm | $H2cm) ($JVcm | $JTcm);
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($JTcm | $H3cm) $JTcm;
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# LB 27 Treat korean Syllable Block the same as ID (don't break it)
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($JLcm | $JVcm | $JTcm | $H2cm | $H3cm) $INcm;
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($JLcm | $JVcm | $JTcm | $H2cm | $H3cm) $POcm;
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$PRcm ($JLcm | $JVcm | $JTcm | $H2cm | $H3cm);
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# LB 28 Do not break between alphabetics
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#
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($ALcm | $HLcm) ($ALcm | $HLcm);
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$CM+ ($ALcm | $HLcm); # The $CM+ is from rule 10, an unattached CM is treated as AL
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# LB 29
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$IScm ($ALcm | $HLcm);
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# LB 30
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($ALcm | $HLcm | $NUcm) $OPcm;
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$CM+ $OPcm; # The $CM+ is from rule 10, an unattached CM is treated as AL.
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$CPcm ($ALcm | $HLcm | $NUcm);
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# LB 30a Do not break between regional indicators.
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$RIcm $RIcm;
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#
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# Reverse Rules.
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#
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## -------------------------------------------------
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!!reverse;
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$CM+ $ALPlus;
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$CM+ $BA;
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$CM+ $BAX;
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$CM+ $BB;
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$CM+ $B2;
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$CM+ $CL;
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$CM+ $CP;
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$CM+ $EX;
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$CM+ $GL;
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$CM+ $HL;
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$CM+ $HY;
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$CM+ $H2;
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$CM+ $H3;
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$CM+ $ID;
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$CM+ $IN;
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$CM+ $IS;
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$CM+ $JL;
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$CM+ $JV;
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$CM+ $JT;
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$CM+ $NS;
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$CM+ $NSX;
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$CM+ $NU;
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$CM+ $OP;
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$CM+ $PO;
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$CM+ $PR;
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$CM+ $QU;
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$CM+ $RI;
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$CM+ $SY;
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$CM+ $WJ;
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$CM+;
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#
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# Sequences of the form (shown forwards)
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# [CANT_CM] <break> [CM] [whatever]
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# The CM needs to behave as an AL
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#
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$AL_FOLLOW $CM+ / (
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[$BK $CR $LF $NL $ZW {eof}] |
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$SP+ $CM+ $SP |
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$SP+ $CM* ([^$OP $CM $SP] | [$AL {eof}])); # if LB 14 will match, need to surpress this break.
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# LB14 says OP SP* x .
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# becomes OP SP* x AL
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# becomes OP SP* x CM+ AL_FOLLOW
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#
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# Further note: the $AL in [$AL {eof}] is only to work around
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# a rule compiler bug which complains about
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# empty sets otherwise.
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#
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# Sequences of the form (shown forwards)
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# [CANT_CM] <break> [CM] <break> [PR]
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# The CM needs to behave as an AL
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# This rule is concerned about getting the second of the two <breaks> in place.
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#
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[$PR ] / $CM+ [$BK $CR $LF $NL $ZW $SP {eof}];
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# LB 4, 5, 5
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$LB4Breaks [$LB4NonBreaks-$CM];
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$LB4Breaks $CM+ $CAN_CM;
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$LF $CR;
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# LB 7 x SP
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# x ZW
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[$SP $ZW] [$LB4NonBreaks-$CM];
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[$SP $ZW] $CM+ $CAN_CM;
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# LB 8 ZW SP* <break>
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# TODO: to implement this, we need more than one look-ahead hard break in play at a time.
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# Requires an engine enhancement.
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# / $SP* $ZW
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# LB 9,10 Combining marks.
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# X $CM needs to behave like X, where X is not $SP or controls.
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# $CM not covered by the above needs to behave like $AL
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# Stick together any combining sequences that don't match other rules.
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$CM+ $CAN_CM;
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# LB 11
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$CM* $WJ $CM* $CAN_CM;
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$CM* $WJ [$LB8NonBreaks-$CM];
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$CANT_CM $CM* $WJ;
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$CM* $CAN_CM $CM* $WJ;
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# LB 12a
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# [^SP BA HY] x GL
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#
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$CM* $GL $CM* [$LB8NonBreaks-[$CM $SP $BA $BAX $HY]];
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# LB 12
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# GL x
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#
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$CANT_CM $CM* $GL;
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$CM* $CAN_CM $CM* $GL;
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# LB 13
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$CL $CM+ $CAN_CM;
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$CP $CM+ $CAN_CM;
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$EX $CM+ $CAN_CM;
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$IS $CM+ $CAN_CM;
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$SY $CM+ $CAN_CM;
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$CL [$LB8NonBreaks-$CM];
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$CP [$LB8NonBreaks-$CM];
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$EX [$LB8NonBreaks-$CM];
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$IS [$LB8NonBreaks-$CM];
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$SY [$LB8NonBreaks-$CM];
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# Rule 13 & 14 taken together for an edge case.
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# Match this, shown forward
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# OP SP+ ($CM+ behaving as $AL) (CL | CP | EX | IS | IY)
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# This really wants to chain at the $CM+ (which is acting as an $AL)
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|
# except for $CM chaining being disabled.
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[$CL $CP $EX $IS $SY] $CM+ $SP+ $CM* $OP;
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# LB 14 OP SP* x
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#
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$CM* $CAN_CM $SP* $CM* $OP;
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$CANT_CM $SP* $CM* $OP;
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$AL_FOLLOW? $CM+ $SP $SP* $CM* $OP; # by LB 10, behaves like $AL_FOLLOW? $AL $SP* $CM* $OP
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$AL_FOLLOW_NOCM $CM+ $SP+ $CM* $OP;
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$CM* $AL_FOLLOW_CM $CM+ $SP+ $CM* $OP;
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$SY $CM $SP+ $OP; # TODO: Experiment. Remove.
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# LB 15
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|
$CM* $OP $SP* $CM* $QU;
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|
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# LB 16
|
|
# Don't include $NSX here
|
|
$CM* $NS $SP* $CM* ($CL | $CP);
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|
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# LB 17
|
|
$CM* $B2 $SP* $CM* $B2;
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|
|
# LB 18 break after spaces
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|
# Nothing explicit needed here.
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|
|
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|
|
#
|
|
# LB 19
|
|
#
|
|
$CM* $QU $CM* $CAN_CM; # . x QU
|
|
$CM* $QU $LB18NonBreaks;
|
|
|
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|
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$CM* $CAN_CM $CM* $QU; # QU x .
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|
$CANT_CM $CM* $QU;
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|
|
|
#
|
|
# LB 20 Break before and after CB.
|
|
# nothing needed here.
|
|
#
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|
|
# LB 21
|
|
# Don't include $BAX or $NSX here
|
|
$CM* ($BA | $HY | $NS) $CM* [$LB20NonBreaks-$CM]; # . x (BA | HY | NS)
|
|
|
|
$CM* [$LB20NonBreaks-$CM] $CM* $BB; # BB x .
|
|
[^$CB] $CM* $BB; #
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|
|
|
# LB21a
|
|
[^$CB]? $CM* ($HY | $BA | $BAX) $CM* $HL;
|
|
|
|
# LB21b (reverse)
|
|
$CM* $HL $CM* $SY;
|
|
|
|
# LB 22
|
|
$CM* $IN $CM* ($ALPlus | $HL);
|
|
$CM* $IN $CM* $EX;
|
|
$CM* $IN $CM* $ID;
|
|
$CM* $IN $CM* $IN;
|
|
$CM* $IN $CM* $NU;
|
|
|
|
# LB 23
|
|
$CM* $PO $CM* $ID;
|
|
$CM* $NU $CM* ($ALPlus | $HL);
|
|
$CM* ($ALPlus | $HL) $CM* $NU;
|
|
|
|
# LB 24
|
|
$CM* $ID $CM* $PR;
|
|
$CM* ($ALPlus | $HL) $CM* $PR;
|
|
$CM* ($ALPlus | $HL) $CM* $PO;
|
|
|
|
|
|
# LB 25
|
|
($CM* ($PR | $PO))? ($CM* ($CL | $CP))? ($CM* ($NU | $IS | $SY))* $CM* $NU ($CM* ($OP | $HY))? ($CM* ($PR | $PO))?;
|
|
|
|
# LB 26
|
|
$CM* ($H3 | $H2 | $JV | $JL) $CM* $JL;
|
|
$CM* ($JT | $JV) $CM* ($H2 | $JV);
|
|
$CM* $JT $CM* ($H3 | $JT);
|
|
|
|
# LB 27
|
|
$CM* $IN $CM* ($H3 | $H2 | $JT | $JV | $JL);
|
|
$CM* $PO $CM* ($H3 | $H2 | $JT | $JV | $JL);
|
|
$CM* ($H3 | $H2 | $JT | $JV | $JL) $CM* $PR;
|
|
|
|
# LB 28
|
|
$CM* ($ALPlus | $HL) $CM* ($ALPlus | $HL);
|
|
|
|
|
|
# LB 29
|
|
$CM* ($ALPlus | $HL) $CM* $IS;
|
|
|
|
# LB 30
|
|
$CM* $OP $CM* ($ALPlus | $HL | $NU);
|
|
$CM* ($ALPlus | $HL | $NU) $CM* $CP;
|
|
|
|
# LB 30a
|
|
$CM* $RI $CM* $RI;
|
|
|
|
## -------------------------------------------------
|
|
|
|
!!safe_reverse;
|
|
|
|
# LB 9
|
|
$CM+ [^$CM $BK $CR $LF $NL $ZW $SP];
|
|
$CM+ $SP / .;
|
|
|
|
# LB 14
|
|
$SP+ $CM* $OP;
|
|
|
|
# LB 15
|
|
$SP+ $CM* $QU;
|
|
|
|
# LB 16
|
|
$SP+ $CM* ($CL | $CP);
|
|
|
|
# LB 17
|
|
$SP+ $CM* $B2;
|
|
|
|
# LB 21
|
|
$CM* ($HY | $BA | $BAX) $CM* $HL;
|
|
|
|
# LB 25
|
|
($CM* ($IS | $SY))+ $CM* $NU;
|
|
($CL | $CP) $CM* ($NU | $IS | $SY);
|
|
|
|
# For dictionary-based break
|
|
$dictionary $dictionary;
|
|
|
|
## -------------------------------------------------
|
|
|
|
!!safe_forward;
|
|
|
|
# Skip forward over all character classes that are involved in
|
|
# rules containing patterns with possibly more than one char
|
|
# of context.
|
|
#
|
|
# It might be slightly more efficient to have specific rules
|
|
# instead of one generic one, but only if we could
|
|
# turn off rule chaining. We don't want to move more
|
|
# than necessary.
|
|
#
|
|
[$CM $OP $QU $CL $CP $B2 $PR $HY $BA $BAX $SP $dictionary]+ [^$CM $OP $QU $CL $CP $B2 $PR $HY $BA $BAX $dictionary];
|
|
$dictionary $dictionary;
|
|
|