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506 lines
24 KiB
506 lines
24 KiB
# Copyright (C) 2016 and later: Unicode, Inc. and others.
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# License & terms of use: http://www.unicode.org/copyright.html
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#*****************************************************************************
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#
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# Copyright (C) 2002-2015, International Business Machines Corporation and others.
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# All Rights Reserved.
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#
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#*****************************************************************************
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#
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# file: regexcst.txt
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# ICU Regular Expression Parser State Table
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#
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# This state table is used when reading and parsing a regular expression pattern
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# The pattern parser uses a state machine; the data in this file define the
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# state transitions that occur for each input character.
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#
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# *** This file defines the regex pattern grammar. This is it.
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# *** The determination of what is accepted is here.
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#
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# This file is processed by a perl script "regexcst.pl" to produce initialized C arrays
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# that are then built with the rule parser.
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#
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#
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# Here is the syntax of the state definitions in this file:
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#
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#
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#StateName:
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# input-char n next-state ^push-state action
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# input-char n next-state ^push-state action
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# | | | | |
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# | | | | |--- action to be performed by state machine
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# | | | | See function RBBIRuleScanner::doParseActions()
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# | | | |
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# | | | |--- Push this named state onto the state stack.
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# | | | Later, when next state is specified as "pop",
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# | | | the pushed state will become the current state.
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# | | |
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# | | |--- Transition to this state if the current input character matches the input
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# | | character or char class in the left hand column. "pop" causes the next
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# | | state to be popped from the state stack.
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# | |
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# | |--- When making the state transition specified on this line, advance to the next
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# | character from the input only if 'n' appears here.
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# |
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# |--- Character or named character classes to test for. If the current character being scanned
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# matches, peform the actions and go to the state specified on this line.
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# The input character is tested sequentally, in the order written. The characters and
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# character classes tested for do not need to be mutually exclusive. The first match wins.
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#
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#
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# start state, scan position is at the beginning of the pattern.
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#
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start:
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default term doPatStart
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#
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# term. At a position where we can accept the start most items in a pattern.
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#
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term:
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quoted n expr-quant doLiteralChar
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rule_char n expr-quant doLiteralChar
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'[' n set-open ^set-finish doSetBegin
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'(' n open-paren
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'.' n expr-quant doDotAny
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'^' n expr-quant doCaret
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'$' n expr-quant doDollar
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'\' n backslash
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'|' n term doOrOperator
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')' n pop doCloseParen
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eof term doPatFinish
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default errorDeath doRuleError
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#
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# expr-quant We've just finished scanning a term, now look for the optional
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# trailing quantifier - *, +, ?, *?, etc.
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#
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expr-quant:
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'*' n quant-star
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'+' n quant-plus
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'?' n quant-opt
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'{' n interval-open doIntervalInit
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'(' n open-paren-quant
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default expr-cont
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#
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# expr-cont Expression, continuation. At a point where additional terms are
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# allowed, but not required. No Quantifiers
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#
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expr-cont:
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'|' n term doOrOperator
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')' n pop doCloseParen
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default term
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#
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# open-paren-quant Special case handling for comments appearing before a quantifier,
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# e.g. x(?#comment )*
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# Open parens from expr-quant come here; anything but a (?# comment
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# branches into the normal parenthesis sequence as quickly as possible.
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#
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open-paren-quant:
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'?' n open-paren-quant2 doSuppressComments
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default open-paren
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open-paren-quant2:
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'#' n paren-comment ^expr-quant
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default open-paren-extended
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#
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# open-paren We've got an open paren. We need to scan further to
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# determine what kind of quantifier it is - plain (, (?:, (?>, or whatever.
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#
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open-paren:
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'?' n open-paren-extended doSuppressComments
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default term ^expr-quant doOpenCaptureParen
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open-paren-extended:
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':' n term ^expr-quant doOpenNonCaptureParen # (?:
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'>' n term ^expr-quant doOpenAtomicParen # (?>
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'=' n term ^expr-cont doOpenLookAhead # (?=
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'!' n term ^expr-cont doOpenLookAheadNeg # (?!
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'<' n open-paren-lookbehind
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'#' n paren-comment ^term
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'i' paren-flag doBeginMatchMode
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'd' paren-flag doBeginMatchMode
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'm' paren-flag doBeginMatchMode
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's' paren-flag doBeginMatchMode
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'u' paren-flag doBeginMatchMode
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'w' paren-flag doBeginMatchMode
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'x' paren-flag doBeginMatchMode
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'-' paren-flag doBeginMatchMode
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'(' n errorDeath doConditionalExpr
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'{' n errorDeath doPerlInline
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default errorDeath doBadOpenParenType
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open-paren-lookbehind:
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'=' n term ^expr-cont doOpenLookBehind # (?<=
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'!' n term ^expr-cont doOpenLookBehindNeg # (?<!
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ascii_letter named-capture doBeginNamedCapture # (?<name
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default errorDeath doBadOpenParenType
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#
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# paren-comment We've got a (?# ... ) style comment. Eat pattern text till we get to the ')'
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#
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paren-comment:
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')' n pop
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eof errorDeath doMismatchedParenErr
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default n paren-comment
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#
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# paren-flag Scanned a (?ismx-ismx flag setting
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#
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paren-flag:
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'i' n paren-flag doMatchMode
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'd' n paren-flag doMatchMode
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'm' n paren-flag doMatchMode
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's' n paren-flag doMatchMode
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'u' n paren-flag doMatchMode
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'w' n paren-flag doMatchMode
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'x' n paren-flag doMatchMode
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'-' n paren-flag doMatchMode
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')' n term doSetMatchMode
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':' n term ^expr-quant doMatchModeParen
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default errorDeath doBadModeFlag
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#
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# named-capture (?<name> ... ), position currently on the name.
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#
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named-capture:
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ascii_letter n named-capture doContinueNamedCapture
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digit_char n named-capture doContinueNamedCapture
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'>' n term ^expr-quant doOpenCaptureParen # common w non-named capture.
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default errorDeath doBadNamedCapture
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#
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# quant-star Scanning a '*' quantifier. Need to look ahead to decide
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# between plain '*', '*?', '*+'
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#
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quant-star:
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'?' n expr-cont doNGStar # *?
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'+' n expr-cont doPossessiveStar # *+
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default expr-cont doStar
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#
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# quant-plus Scanning a '+' quantifier. Need to look ahead to decide
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# between plain '+', '+?', '++'
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#
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quant-plus:
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'?' n expr-cont doNGPlus # *?
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'+' n expr-cont doPossessivePlus # *+
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default expr-cont doPlus
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#
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# quant-opt Scanning a '?' quantifier. Need to look ahead to decide
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# between plain '?', '??', '?+'
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#
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quant-opt:
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'?' n expr-cont doNGOpt # ??
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'+' n expr-cont doPossessiveOpt # ?+
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default expr-cont doOpt # ?
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#
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# Interval scanning a '{', the opening delimiter for an interval specification
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# {number} or {min, max} or {min,}
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#
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interval-open:
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digit_char interval-lower
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default errorDeath doIntervalError
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interval-lower:
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digit_char n interval-lower doIntevalLowerDigit
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',' n interval-upper
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'}' n interval-type doIntervalSame # {n}
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default errorDeath doIntervalError
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interval-upper:
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digit_char n interval-upper doIntervalUpperDigit
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'}' n interval-type
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default errorDeath doIntervalError
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interval-type:
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'?' n expr-cont doNGInterval # {n,m}?
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'+' n expr-cont doPossessiveInterval # {n,m}+
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default expr-cont doInterval # {m,n}
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#
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# backslash # Backslash. Figure out which of the \thingies we have encountered.
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# The low level next-char function will have preprocessed
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# some of them already; those won't come here.
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backslash:
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'A' n term doBackslashA
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'B' n term doBackslashB
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'b' n term doBackslashb
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'd' n expr-quant doBackslashd
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'D' n expr-quant doBackslashD
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'G' n term doBackslashG
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'h' n expr-quant doBackslashh
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'H' n expr-quant doBackslashH
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'k' n named-backref
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'N' expr-quant doNamedChar # \N{NAME} named char
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'p' expr-quant doProperty # \p{Lu} style property
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'P' expr-quant doProperty
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'R' n expr-quant doBackslashR
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'Q' n term doEnterQuoteMode
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'S' n expr-quant doBackslashS
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's' n expr-quant doBackslashs
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'v' n expr-quant doBackslashv
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'V' n expr-quant doBackslashV
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'W' n expr-quant doBackslashW
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'w' n expr-quant doBackslashw
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'X' n expr-quant doBackslashX
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'Z' n term doBackslashZ
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'z' n term doBackslashz
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digit_char n expr-quant doBackRef # Will scan multiple digits
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eof errorDeath doEscapeError
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default n expr-quant doEscapedLiteralChar
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# named-backref Scanned \k
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# Leading to \k<captureName>
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# Failure to get the full sequence is an error.
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#
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named-backref:
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'<' n named-backref-2 doBeginNamedBackRef
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default errorDeath doBadNamedCapture
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named-backref-2:
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ascii_letter n named-backref-3 doContinueNamedBackRef
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default errorDeath doBadNamedCapture
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named-backref-3:
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ascii_letter n named-backref-3 doContinueNamedBackRef
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digit_char n named-backref-3 doContinueNamedBackRef
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'>' n expr-quant doCompleteNamedBackRef
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default errorDeath doBadNamedCapture
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#
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# [set expression] parsing,
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# All states involved in parsing set expressions have names beginning with "set-"
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#
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set-open:
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'^' n set-open2 doSetNegate
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':' set-posix doSetPosixProp
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default set-open2
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set-open2:
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']' n set-after-lit doSetLiteral
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default set-start
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# set-posix:
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# scanned a '[:' If it really is a [:property:], doSetPosixProp will have
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# moved the scan to the closing ']'. If it wasn't a property
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# expression, the scan will still be at the opening ':', which should
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# be interpreted as a normal set expression.
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set-posix:
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']' n pop doSetEnd
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':' set-start
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default errorDeath doRuleError # should not be possible.
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#
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# set-start after the [ and special case leading characters (^ and/or ]) but before
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# everything else. A '-' is literal at this point.
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#
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set-start:
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']' n pop doSetEnd
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'[' n set-open ^set-after-set doSetBeginUnion
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'\' n set-escape
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'-' n set-start-dash
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'&' n set-start-amp
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default n set-after-lit doSetLiteral
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# set-start-dash Turn "[--" into a syntax error.
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# "[-x" is good, - and x are literals.
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#
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set-start-dash:
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'-' errorDeath doRuleError
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default set-after-lit doSetAddDash
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# set-start-amp Turn "[&&" into a syntax error.
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# "[&x" is good, & and x are literals.
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#
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set-start-amp:
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'&' errorDeath doRuleError
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default set-after-lit doSetAddAmp
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#
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# set-after-lit The last thing scanned was a literal character within a set.
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# Can be followed by anything. Single '-' or '&' are
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# literals in this context, not operators.
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set-after-lit:
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']' n pop doSetEnd
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'[' n set-open ^set-after-set doSetBeginUnion
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'-' n set-lit-dash
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'&' n set-lit-amp
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'\' n set-escape
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eof errorDeath doSetNoCloseError
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default n set-after-lit doSetLiteral
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set-after-set:
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']' n pop doSetEnd
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'[' n set-open ^set-after-set doSetBeginUnion
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'-' n set-set-dash
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'&' n set-set-amp
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'\' n set-escape
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eof errorDeath doSetNoCloseError
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default n set-after-lit doSetLiteral
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set-after-range:
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']' n pop doSetEnd
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'[' n set-open ^set-after-set doSetBeginUnion
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'-' n set-range-dash
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'&' n set-range-amp
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'\' n set-escape
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eof errorDeath doSetNoCloseError
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default n set-after-lit doSetLiteral
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# set-after-op
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# After a -- or &&
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# It is an error to close a set at this point.
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#
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set-after-op:
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'[' n set-open ^set-after-set doSetBeginUnion
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']' errorDeath doSetOpError
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'\' n set-escape
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default n set-after-lit doSetLiteral
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#
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# set-set-amp
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# Have scanned [[set]&
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# Could be a '&' intersection operator, if a set follows.
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# Could be the start of a '&&' operator.
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# Otherewise is a literal.
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set-set-amp:
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'[' n set-open ^set-after-set doSetBeginIntersection1
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'&' n set-after-op doSetIntersection2
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default set-after-lit doSetAddAmp
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# set-lit-amp Have scanned "[literals&"
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# Could be a start of "&&" operator or a literal
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# In [abc&[def]], the '&' is a literal
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#
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set-lit-amp:
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'&' n set-after-op doSetIntersection2
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default set-after-lit doSetAddAmp
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#
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# set-set-dash
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# Have scanned [set]-
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# Could be a '-' difference operator, if a [set] follows.
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# Could be the start of a '--' operator.
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# Otherewise is a literal.
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set-set-dash:
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'[' n set-open ^set-after-set doSetBeginDifference1
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'-' n set-after-op doSetDifference2
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default set-after-lit doSetAddDash
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#
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# set-range-dash
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# scanned a-b- or \w-
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# any set or range like item where the trailing single '-' should
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# be literal, not a set difference operation.
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# A trailing "--" is still a difference operator.
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set-range-dash:
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'-' n set-after-op doSetDifference2
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default set-after-lit doSetAddDash
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set-range-amp:
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'&' n set-after-op doSetIntersection2
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default set-after-lit doSetAddAmp
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# set-lit-dash
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# Have scanned "[literals-" Could be a range or a -- operator or a literal
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# In [abc-[def]], the '-' is a literal (confirmed with a Java test)
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# [abc-\p{xx} the '-' is an error
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# [abc-] the '-' is a literal
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# [ab-xy] the '-' is a range
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#
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set-lit-dash:
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'-' n set-after-op doSetDifference2
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'[' set-after-lit doSetAddDash
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']' set-after-lit doSetAddDash
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'\' n set-lit-dash-escape
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default n set-after-range doSetRange
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# set-lit-dash-escape
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#
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# scanned "[literal-\"
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# Could be a range, if the \ introduces an escaped literal char or a named char.
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# Otherwise it is an error.
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#
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set-lit-dash-escape:
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's' errorDeath doSetOpError
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'S' errorDeath doSetOpError
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'w' errorDeath doSetOpError
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'W' errorDeath doSetOpError
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'd' errorDeath doSetOpError
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'D' errorDeath doSetOpError
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'N' set-after-range doSetNamedRange
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default n set-after-range doSetRange
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#
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# set-escape
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# Common back-slash escape processing within set expressions
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#
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set-escape:
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'p' set-after-set doSetProp
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'P' set-after-set doSetProp
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'N' set-after-lit doSetNamedChar
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's' n set-after-range doSetBackslash_s
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'S' n set-after-range doSetBackslash_S
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'w' n set-after-range doSetBackslash_w
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'W' n set-after-range doSetBackslash_W
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'd' n set-after-range doSetBackslash_d
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'D' n set-after-range doSetBackslash_D
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'h' n set-after-range doSetBackslash_h
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'H' n set-after-range doSetBackslash_H
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'v' n set-after-range doSetBackslash_v
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'V' n set-after-range doSetBackslash_V
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default n set-after-lit doSetLiteralEscaped
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#
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# set-finish
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# Have just encountered the final ']' that completes a [set], and
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# arrived here via a pop. From here, we exit the set parsing world, and go
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# back to generic regular expression parsing.
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#
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set-finish:
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default expr-quant doSetFinish
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#
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# errorDeath. This state is specified as the next state whenever a syntax error
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# in the source rules is detected. Barring bugs, the state machine will never
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# actually get here, but will stop because of the action associated with the error.
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# But, just in case, this state asks the state machine to exit.
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errorDeath:
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default n errorDeath doExit
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