#***************************************************************************** # # Copyright (C) 2002, International Business Machines Corporation and others. # All Rights Reserved. # #***************************************************************************** # # file: regexcst.txt # ICU Regular Expression Parser State Table # # This state table is used when reading and parsing a regular expression pattern # The pattern parser uses a state machine; the data in this file define the # state transitions that occur for each input character. # # *** This file defines the regex pattern grammar. This is it. # *** The determination of what is accepted is here. # # This file is processed by a perl script "regexcst.pl" to produce initialized C arrays # that are then built with the rule parser. # # # Here is the syntax of the state definitions in this file: # # #StateName: # input-char n next-state ^push-state action # input-char n next-state ^push-state action # | | | | | # | | | | |--- action to be performed by state machine # | | | | See function RBBIRuleScanner::doParseActions() # | | | | # | | | |--- Push this named state onto the state stack. # | | | Later, when next state is specified as "pop", # | | | the pushed state will become the current state. # | | | # | | |--- Transition to this state if the current input character matches the input # | | character or char class in the left hand column. "pop" causes the next # | | state to be popped from the state stack. # | | # | |--- When making the state transition specified on this line, advance to the next # | character from the input only if 'n' appears here. # | # |--- Character or named character classes to test for. If the current character being scanned # matches, peform the actions and go to the state specified on this line. # The input character is tested sequentally, in the order written. The characters and # character classes tested for do not need to be mutually exclusive. The first match wins. # # # start state, scan position is at the beginning of the pattern. # start: default term doPatStart # # term. At a position where we can accept the start most items in a pattern. # term: quoted n expr-quant doLiteralChar rule_char n expr-quant doLiteralChar '[' n expr-quant doScanUnicodeSet '(' n open-paren '.' n expr-quant doDotAny '^' n term doCaret '$' n term doDollar '\' n backslash '|' n term doOrOperator ')' n pop doCloseParen eof term doPatFinish default errorDeath doRuleError # # expr-quant We've just finished scanning a term, now look for the optional # trailing quantifier - *, +, ?, *?, etc. # expr-quant: '*' n quant-star '+' n quant-plus '?' n quant-opt '{' n interval-open doIntervalInit '(' n open-paren-quant default expr-cont # # expr-cont Expression, continuation. At a point where additional terms are # allowed, but not required. No Quantifiers # expr-cont: '|' n term doOrOperator ')' n pop doCloseParen default term # # open-paren-quant Special case handling for comments appearing before a quantifier, # e.g. x(?#comment )* # Open parens from expr-quant come here; anything but a (?# comment # branches into the normal parenthesis sequence as quickly as possible. # open-paren-quant: '?' n open-paren-quant2 doSuppressComments default open-paren open-paren-quant2: '#' n paren-comment ^expr-quant default open-paren-extended # # open-paren We've got an open paren. We need to scan further to # determine what kind of quantifier it is - plain (, (?:, (?>, or whatever. # open-paren: '?' n open-paren-extended doSuppressComments default term ^expr-quant doOpenCaptureParen open-paren-extended: ':' n term ^expr-quant doOpenNonCaptureParen # (?: '>' n term ^expr-quant doOpenAtomicParen # (?> '=' n term ^expr-cont doOpenLookAhead # (?= '!' n term ^expr-cont doOpenLookAheadNeg # (?! '<' n open-paren-lookbehind '#' n paren-comment ^term 'i' paren-flag doBeginMatchMode 'm' paren-flag doBeginMatchMode 's' paren-flag doBeginMatchMode 'x' paren-flag doBeginMatchMode '-' paren-flag doBeginMatchMode '(' n errorDeath doConditionalExpr '{' n errorDeath doPerlInline default errorDeath doBadOpenParenType open-paren-lookbehind: '=' n term ^expr-cont doOpenLookBehind # (?<= '!' n term ^expr-cont doOpenLookBehindNeg # (?