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1
2 #*****************************************************************************
3 #
4 # Copyright (C) 2002-2003, International Business Machines Corporation and others.
5 # All Rights Reserved.
6 #
7 #*****************************************************************************
8 #
9 # file: rbbirpt.txt
10 # ICU Break Iterator Rule Parser State Table
11 #
12 # This state table is used when reading and parsing a set of RBBI rules
13 # The rule parser uses a state machine; the data in this file define the
14 # state transitions that occur for each input character.
15 #
16 # *** This file defines the RBBI rule grammar. This is it.
17 # *** The determination of what is accepted is here.
18 #
19 # This file is processed by a perl script "rbbicst.pl" to produce initialized C arrays
20 # that are then built with the rule parser.
21 #
22
23 #
24 # Here is the syntax of the state definitions in this file:
25 #
26 #
27 #StateName:
28 # input-char n next-state ^push-state action
29 # input-char n next-state ^push-state action
30 # | | | | |
31 # | | | | |--- action to be performed by state machine
32 # | | | | See function RBBIRuleScanner::doParseActions()
33 # | | | |
34 # | | | |--- Push this named state onto the state stack.
35 # | | | Later, when next state is specified as "pop",
36 # | | | the pushed state will become the current state.
37 # | | |
38 # | | |--- Transition to this state if the current input character matches the input
39 # | | character or char class in the left hand column. "pop" causes the next
40 # | | state to be popped from the state stack.
41 # | |
42 # | |--- When making the state transition specified on this line, advance to the next
43 # | character from the input only if 'n' appears here.
44 # |
45 # |--- Character or named character classes to test for. If the current character being scanned
46 # matches, peform the actions and go to the state specified on this line.
47 # The input character is tested sequentally, in the order written. The characters and
48 # character classes tested for do not need to be mutually exclusive. The first match wins.
49 #
50
51
52
53
54 #
55 # start state, scan position is at the beginning of the rules file, or in between two rules.
56 #
57 start:
58 escaped term ^break-rule-end doExprStart
59 white_space n start
60 '$' scan-var-name ^assign-or-rule doExprStart
61 '!' n rev-option
62 ';' n start # ignore empty rules.
63 eof exit
64 default term ^break-rule-end doExprStart
65
66 #
67 # break-rule-end: Returned from doing a break-rule expression.
68 #
69 break-rule-end:
70 ';' n start doEndOfRule
71 white_space n break-rule-end
72 default errorDeath doRuleError
73
74
75 #
76 # ! We've just scanned a '!', indicating either a !!key word flag or a
77 # !Reverse rule.
78 #
79 rev-option:
80 '!' n option-scan1
81 default reverse-rule ^break-rule-end doReverseDir
82
83 option-scan1:
84 name_start_char n option-scan2 doOptionStart
85 default errorDeath doRuleError
86
87 option-scan2:
88 name_char n option-scan2
89 default option-scan3 doOptionEnd
90
91 option-scan3:
92 ';' n start
93 white_space n option-scan3
94 default errorDeath doRuleError
95
96
97 reverse-rule:
98 default term ^break-rule-end doExprStart
99
100
101 #
102 # term. Eat through a single rule character, or a composite thing, which
103 # could be a parenthesized expression, a variable name, or a Unicode Set.
104 #
105 term:
106 escaped n expr-mod doRuleChar
107 white_space n term
108 rule_char n expr-mod doRuleChar
109 '[' scan-unicode-set ^expr-mod
110 '(' n term ^expr-mod doLParen
111 '$' scan-var-name ^term-var-ref
112 '.' n expr-mod doDotAny
113 default errorDeath doRuleError
114
115
116
117 #
118 # term-var-ref We've just finished scanning a reference to a $variable.
119 # Check that the variable was defined.
120 # The variable name scanning is in common with assignment statements,
121 # so the check can't be done there.
122 term-var-ref:
123 default expr-mod doCheckVarDef
124
125
126 #
127 # expr-mod We've just finished scanning a term, now look for the optional
128 # trailing '*', '?', '+'
129 #
130 expr-mod:
131 white_space n expr-mod
132 '*' n expr-cont doUnaryOpStar
133 '+' n expr-cont doUnaryOpPlus
134 '?' n expr-cont doUnaryOpQuestion
135 default expr-cont
136
137
138 #
139 # expr-cont Expression, continuation. At a point where additional terms are
140 # allowed, but not required.
141 #
142 expr-cont:
143 escaped term doExprCatOperator
144 white_space n expr-cont
145 rule_char term doExprCatOperator
146 '[' term doExprCatOperator
147 '(' term doExprCatOperator
148 '$' term doExprCatOperator
149 '.' term doExprCatOperator
150 '/' look-ahead doExprCatOperator
151 '{' n tag-open doExprCatOperator
152 '|' n term doExprOrOperator
153 ')' n pop doExprRParen
154 default pop doExprFinished
155
156
157 #
158 # look-ahead Scanning a '/', which identifies a break point, assuming that the
159 # remainder of the expression matches.
160 #
161 # Generate a parse tree as if this was a special kind of input symbol
162 # appearing in an otherwise normal concatenation expression.
163 #
164 look-ahead:
165 '/' n expr-cont-no-slash doSlash
166 default errorDeath
167
168
169 #
170 # expr-cont-no-slash Expression, continuation. At a point where additional terms are
171 # allowed, but not required. Just like
172 # expr-cont, above, except that no '/'
173 # look-ahead symbol is permitted.
174 #
175 expr-cont-no-slash:
176 escaped term doExprCatOperator
177 white_space n expr-cont
178 rule_char term doExprCatOperator
179 '[' term doExprCatOperator
180 '(' term doExprCatOperator
181 '$' term doExprCatOperator
182 '.' term doExprCatOperator
183 '|' n term doExprOrOperator
184 ')' n pop doExprRParen
185 default pop doExprFinished
186
187
188 #
189 # tags scanning a '{', the opening delimiter for a tag that identifies
190 # the kind of match. Scan the whole {dddd} tag, where d=digit
191 #
192 tag-open:
193 white_space n tag-open
194 digit_char tag-value doStartTagValue
195 default errorDeath doTagExpectedError
196
197 tag-value:
198 white_space n tag-close
199 '}' tag-close
200 digit_char n tag-value doTagDigit
201 default errorDeath doTagExpectedError
202
203 tag-close:
204 white_space n tag-close
205 '}' n expr-cont-no-tag doTagValue
206 default errorDeath doTagExpectedError
207
208
209
210 #
211 # expr-cont-no-tag Expression, continuation. At a point where additional terms are
212 # allowed, but not required. Just like
213 # expr-cont, above, except that no "{ddd}"
214 # tagging is permitted.
215 #
216 expr-cont-no-tag:
217 escaped term doExprCatOperator
218 white_space n expr-cont-no-tag
219 rule_char term doExprCatOperator
220 '[' term doExprCatOperator
221 '(' term doExprCatOperator
222 '$' term doExprCatOperator
223 '.' term doExprCatOperator
224 '/' look-ahead doExprCatOperator
225 '|' n term doExprOrOperator
226 ')' n pop doExprRParen
227 default pop doExprFinished
228
229
230
231
232 #
233 # Variable Name Scanning.
234 #
235 # The state that branched to here must have pushed a return state
236 # to go to after completion of the variable name scanning.
237 #
238 # The current input character must be the $ that introduces the name.
239 # The $ is consummed here rather than in the state that first detected it
240 # so that the doStartVariableName action only needs to happen in one
241 # place (here), and the other states don't need to worry about it.
242 #
243 scan-var-name:
244 '$' n scan-var-start doStartVariableName
245 default errorDeath
246
247
248 scan-var-start:
249 name_start_char n scan-var-body
250 default errorDeath doVariableNameExpectedErr
251
252 scan-var-body:
253 name_char n scan-var-body
254 default pop doEndVariableName
255
256
257
258 #
259 # scan-unicode-set Unicode Sets are parsed by the the UnicodeSet class.
260 # Within the RBBI parser, after finding the first character
261 # of a Unicode Set, we just hand the rule input at that
262 # point of to the Unicode Set constructor, then pick
263 # up parsing after the close of the set.
264 #
265 # The action for this state invokes the UnicodeSet parser.
266 #
267 scan-unicode-set:
268 '[' n pop doScanUnicodeSet
269 'p' n pop doScanUnicodeSet
270 'P' n pop doScanUnicodeSet
271 default errorDeath
272
273
274
275
276
277
278
279 #
280 # assign-or-rule. A $variable was encountered at the start of something, could be
281 # either an assignment statement or a rule, depending on whether an '='
282 # follows the variable name. We get to this state when the variable name
283 # scanning does a return.
284 #
285 assign-or-rule:
286 white_space n assign-or-rule
287 '=' n term ^assign-end doStartAssign # variable was target of assignment
288 default term-var-ref ^break-rule-end # variable was a term in a rule
289
290
291
292 #
293 # assign-end This state is entered when the end of the expression on the
294 # right hand side of an assignment is found. We get here via
295 # a pop; this state is pushed when the '=' in an assignment is found.
296 #
297 # The only thing allowed at this point is a ';'. The RHS of an
298 # assignment must look like a rule expression, and we come here
299 # when what is being scanned no longer looks like an expression.
300 #
301 assign-end:
302 ';' n start doEndAssign
303 default errorDeath doRuleErrorAssignExpr
304
305
306
307 #
308 # errorDeath. This state is specified as the next state whenever a syntax error
309 # in the source rules is detected. Barring bugs, the state machine will never
310 # actually get here, but will stop because of the action associated with the error.
311 # But, just in case, this state asks the state machine to exit.
312 errorDeath:
313 default n errorDeath doExit
314
315