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f3c0d7a5 A |
1 | // © 2016 and later: Unicode, Inc. and others. |
2 | // License & terms of use: http://www.unicode.org/copyright.html | |
b75a7d8f A |
3 | // |
4 | // file: rbbiscan.cpp | |
5 | // | |
2ca993e8 | 6 | // Copyright (C) 2002-2016, International Business Machines Corporation and others. |
b75a7d8f A |
7 | // All Rights Reserved. |
8 | // | |
9 | // This file contains the Rule Based Break Iterator Rule Builder functions for | |
10 | // scanning the rules and assembling a parse tree. This is the first phase | |
11 | // of compiling the rules. | |
12 | // | |
13 | // The overall of the rules is managed by class RBBIRuleBuilder, which will | |
14 | // create and use an instance of this class as part of the process. | |
15 | // | |
16 | ||
17 | #include "unicode/utypes.h" | |
18 | ||
19 | #if !UCONFIG_NO_BREAK_ITERATION | |
20 | ||
21 | #include "unicode/unistr.h" | |
22 | #include "unicode/uniset.h" | |
23 | #include "unicode/uchar.h" | |
24 | #include "unicode/uchriter.h" | |
25 | #include "unicode/parsepos.h" | |
26 | #include "unicode/parseerr.h" | |
b75a7d8f A |
27 | #include "cmemory.h" |
28 | #include "cstring.h" | |
29 | ||
30 | #include "rbbirpt.h" // Contains state table for the rbbi rules parser. | |
31 | // generated by a Perl script. | |
32 | #include "rbbirb.h" | |
33 | #include "rbbinode.h" | |
34 | #include "rbbiscan.h" | |
374ca955 | 35 | #include "rbbitblb.h" |
b75a7d8f A |
36 | |
37 | #include "uassert.h" | |
38 | ||
46f4442e | 39 | //------------------------------------------------------------------------------ |
b75a7d8f A |
40 | // |
41 | // Unicode Set init strings for each of the character classes needed for parsing a rule file. | |
42 | // (Initialized with hex values for portability to EBCDIC based machines. | |
43 | // Really ugly, but there's no good way to avoid it.) | |
44 | // | |
45 | // The sets are referred to by name in the rbbirpt.txt, which is the | |
46 | // source form of the state transition table for the RBBI rule parser. | |
47 | // | |
46f4442e | 48 | //------------------------------------------------------------------------------ |
b75a7d8f | 49 | static const UChar gRuleSet_rule_char_pattern[] = { |
0f5d89e8 | 50 | // Characters that may appear as literals in patterns without escaping or quoting. |
b75a7d8f A |
51 | // [ ^ [ \ p { Z } \ u 0 0 2 0 |
52 | 0x5b, 0x5e, 0x5b, 0x5c, 0x70, 0x7b, 0x5a, 0x7d, 0x5c, 0x75, 0x30, 0x30, 0x32, 0x30, | |
53 | // - \ u 0 0 7 f ] - [ \ p | |
54 | 0x2d, 0x5c, 0x75, 0x30, 0x30, 0x37, 0x66, 0x5d, 0x2d, 0x5b, 0x5c, 0x70, | |
55 | // { L } ] - [ \ p { N } ] ] | |
56 | 0x7b, 0x4c, 0x7d, 0x5d, 0x2d, 0x5b, 0x5c, 0x70, 0x7b, 0x4e, 0x7d, 0x5d, 0x5d, 0}; | |
57 | ||
58 | static const UChar gRuleSet_name_char_pattern[] = { | |
59 | // [ _ \ p { L } \ p { N } ] | |
60 | 0x5b, 0x5f, 0x5c, 0x70, 0x7b, 0x4c, 0x7d, 0x5c, 0x70, 0x7b, 0x4e, 0x7d, 0x5d, 0}; | |
61 | ||
62 | static const UChar gRuleSet_digit_char_pattern[] = { | |
63 | // [ 0 - 9 ] | |
64 | 0x5b, 0x30, 0x2d, 0x39, 0x5d, 0}; | |
65 | ||
66 | static const UChar gRuleSet_name_start_char_pattern[] = { | |
67 | // [ _ \ p { L } ] | |
68 | 0x5b, 0x5f, 0x5c, 0x70, 0x7b, 0x4c, 0x7d, 0x5d, 0 }; | |
69 | ||
70 | static const UChar kAny[] = {0x61, 0x6e, 0x79, 0x00}; // "any" | |
71 | ||
72 | ||
73 | U_CDECL_BEGIN | |
73c04bcf | 74 | static void U_CALLCONV RBBISetTable_deleter(void *p) { |
4388f060 | 75 | icu::RBBISetTableEl *px = (icu::RBBISetTableEl *)p; |
b75a7d8f A |
76 | delete px->key; |
77 | // Note: px->val is owned by the linked list "fSetsListHead" in scanner. | |
78 | // Don't delete the value nodes here. | |
79 | uprv_free(px); | |
80 | } | |
81 | U_CDECL_END | |
82 | ||
83 | U_NAMESPACE_BEGIN | |
84 | ||
46f4442e | 85 | //------------------------------------------------------------------------------ |
b75a7d8f A |
86 | // |
87 | // Constructor. | |
88 | // | |
46f4442e | 89 | //------------------------------------------------------------------------------ |
b75a7d8f A |
90 | RBBIRuleScanner::RBBIRuleScanner(RBBIRuleBuilder *rb) |
91 | { | |
92 | fRB = rb; | |
2ca993e8 A |
93 | fScanIndex = 0; |
94 | fNextIndex = 0; | |
95 | fQuoteMode = FALSE; | |
96 | fLineNum = 1; | |
97 | fCharNum = 0; | |
98 | fLastChar = 0; | |
99 | ||
100 | fStateTable = NULL; | |
101 | fStack[0] = 0; | |
b75a7d8f | 102 | fStackPtr = 0; |
b75a7d8f | 103 | fNodeStack[0] = NULL; |
2ca993e8 | 104 | fNodeStackPtr = 0; |
b75a7d8f A |
105 | |
106 | fReverseRule = FALSE; | |
107 | fLookAheadRule = FALSE; | |
2ca993e8 | 108 | fNoChainInRule = FALSE; |
b75a7d8f | 109 | |
2ca993e8 A |
110 | fSymbolTable = NULL; |
111 | fSetTable = NULL; | |
112 | fRuleNum = 0; | |
113 | fOptionStart = 0; | |
b75a7d8f | 114 | |
374ca955 A |
115 | // Do not check status until after all critical fields are sufficiently initialized |
116 | // that the destructor can run cleanly. | |
b75a7d8f A |
117 | if (U_FAILURE(*rb->fStatus)) { |
118 | return; | |
119 | } | |
120 | ||
121 | // | |
122 | // Set up the constant Unicode Sets. | |
123 | // Note: These could be made static, lazily initialized, and shared among | |
124 | // all instances of RBBIRuleScanners. BUT this is quite a bit simpler, | |
125 | // and the time to build these few sets should be small compared to a | |
126 | // full break iterator build. | |
4388f060 A |
127 | fRuleSets[kRuleSet_rule_char-128] |
128 | = UnicodeSet(UnicodeString(gRuleSet_rule_char_pattern), *rb->fStatus); | |
129 | // fRuleSets[kRuleSet_white_space-128] = [:Pattern_White_Space:] | |
130 | fRuleSets[kRuleSet_white_space-128]. | |
131 | add(9, 0xd).add(0x20).add(0x85).add(0x200e, 0x200f).add(0x2028, 0x2029); | |
132 | fRuleSets[kRuleSet_name_char-128] | |
133 | = UnicodeSet(UnicodeString(gRuleSet_name_char_pattern), *rb->fStatus); | |
134 | fRuleSets[kRuleSet_name_start_char-128] | |
135 | = UnicodeSet(UnicodeString(gRuleSet_name_start_char_pattern), *rb->fStatus); | |
136 | fRuleSets[kRuleSet_digit_char-128] | |
137 | = UnicodeSet(UnicodeString(gRuleSet_digit_char_pattern), *rb->fStatus); | |
b75a7d8f A |
138 | if (*rb->fStatus == U_ILLEGAL_ARGUMENT_ERROR) { |
139 | // This case happens if ICU's data is missing. UnicodeSet tries to look up property | |
4388f060 | 140 | // names from the init string, can't find them, and claims an illegal argument. |
b75a7d8f A |
141 | // Change the error so that the actual problem will be clearer to users. |
142 | *rb->fStatus = U_BRK_INIT_ERROR; | |
143 | } | |
144 | if (U_FAILURE(*rb->fStatus)) { | |
145 | return; | |
146 | } | |
147 | ||
148 | fSymbolTable = new RBBISymbolTable(this, rb->fRules, *rb->fStatus); | |
46f4442e A |
149 | if (fSymbolTable == NULL) { |
150 | *rb->fStatus = U_MEMORY_ALLOCATION_ERROR; | |
151 | return; | |
152 | } | |
73c04bcf | 153 | fSetTable = uhash_open(uhash_hashUnicodeString, uhash_compareUnicodeString, NULL, rb->fStatus); |
46f4442e A |
154 | if (U_FAILURE(*rb->fStatus)) { |
155 | return; | |
156 | } | |
b75a7d8f A |
157 | uhash_setValueDeleter(fSetTable, RBBISetTable_deleter); |
158 | } | |
159 | ||
160 | ||
161 | ||
46f4442e | 162 | //------------------------------------------------------------------------------ |
b75a7d8f A |
163 | // |
164 | // Destructor | |
165 | // | |
46f4442e | 166 | //------------------------------------------------------------------------------ |
b75a7d8f | 167 | RBBIRuleScanner::~RBBIRuleScanner() { |
b75a7d8f A |
168 | delete fSymbolTable; |
169 | if (fSetTable != NULL) { | |
170 | uhash_close(fSetTable); | |
171 | fSetTable = NULL; | |
172 | ||
173 | } | |
174 | ||
175 | ||
176 | // Node Stack. | |
177 | // Normally has one entry, which is the entire parse tree for the rules. | |
178 | // If errors occured, there may be additional subtrees left on the stack. | |
179 | while (fNodeStackPtr > 0) { | |
180 | delete fNodeStack[fNodeStackPtr]; | |
181 | fNodeStackPtr--; | |
182 | } | |
183 | ||
184 | } | |
185 | ||
46f4442e | 186 | //------------------------------------------------------------------------------ |
b75a7d8f A |
187 | // |
188 | // doParseAction Do some action during rule parsing. | |
189 | // Called by the parse state machine. | |
190 | // Actions build the parse tree and Unicode Sets, | |
191 | // and maintain the parse stack for nested expressions. | |
192 | // | |
193 | // TODO: unify EParseAction and RBBI_RuleParseAction enum types. | |
194 | // They represent exactly the same thing. They're separate | |
195 | // only to work around enum forward declaration restrictions | |
196 | // in some compilers, while at the same time avoiding multiple | |
197 | // definitions problems. I'm sure that there's a better way. | |
198 | // | |
46f4442e A |
199 | //------------------------------------------------------------------------------ |
200 | UBool RBBIRuleScanner::doParseActions(int32_t action) | |
b75a7d8f A |
201 | { |
202 | RBBINode *n = NULL; | |
203 | ||
204 | UBool returnVal = TRUE; | |
205 | ||
46f4442e | 206 | switch (action) { |
b75a7d8f A |
207 | |
208 | case doExprStart: | |
209 | pushNewNode(RBBINode::opStart); | |
210 | fRuleNum++; | |
211 | break; | |
212 | ||
213 | ||
2ca993e8 A |
214 | case doNoChain: |
215 | // Scanned a '^' while on the rule start state. | |
216 | fNoChainInRule = TRUE; | |
217 | break; | |
218 | ||
219 | ||
b75a7d8f A |
220 | case doExprOrOperator: |
221 | { | |
222 | fixOpStack(RBBINode::precOpCat); | |
223 | RBBINode *operandNode = fNodeStack[fNodeStackPtr--]; | |
224 | RBBINode *orNode = pushNewNode(RBBINode::opOr); | |
2ca993e8 A |
225 | if (U_FAILURE(*fRB->fStatus)) { |
226 | break; | |
227 | } | |
b75a7d8f A |
228 | orNode->fLeftChild = operandNode; |
229 | operandNode->fParent = orNode; | |
230 | } | |
231 | break; | |
232 | ||
233 | case doExprCatOperator: | |
234 | // concatenation operator. | |
235 | // For the implicit concatenation of adjacent terms in an expression that are | |
236 | // not separated by any other operator. Action is invoked between the | |
237 | // actions for the two terms. | |
238 | { | |
239 | fixOpStack(RBBINode::precOpCat); | |
240 | RBBINode *operandNode = fNodeStack[fNodeStackPtr--]; | |
241 | RBBINode *catNode = pushNewNode(RBBINode::opCat); | |
2ca993e8 A |
242 | if (U_FAILURE(*fRB->fStatus)) { |
243 | break; | |
244 | } | |
b75a7d8f A |
245 | catNode->fLeftChild = operandNode; |
246 | operandNode->fParent = catNode; | |
247 | } | |
248 | break; | |
249 | ||
250 | case doLParen: | |
251 | // Open Paren. | |
252 | // The openParen node is a dummy operation type with a low precedence, | |
253 | // which has the affect of ensuring that any real binary op that | |
254 | // follows within the parens binds more tightly to the operands than | |
255 | // stuff outside of the parens. | |
256 | pushNewNode(RBBINode::opLParen); | |
257 | break; | |
258 | ||
259 | case doExprRParen: | |
260 | fixOpStack(RBBINode::precLParen); | |
261 | break; | |
262 | ||
263 | case doNOP: | |
264 | break; | |
265 | ||
266 | case doStartAssign: | |
267 | // We've just scanned "$variable = " | |
268 | // The top of the node stack has the $variable ref node. | |
269 | ||
270 | // Save the start position of the RHS text in the StartExpression node | |
271 | // that precedes the $variableReference node on the stack. | |
272 | // This will eventually be used when saving the full $variable replacement | |
273 | // text as a string. | |
274 | n = fNodeStack[fNodeStackPtr-1]; | |
275 | n->fFirstPos = fNextIndex; // move past the '=' | |
276 | ||
277 | // Push a new start-of-expression node; needed to keep parse of the | |
278 | // RHS expression happy. | |
279 | pushNewNode(RBBINode::opStart); | |
280 | break; | |
281 | ||
282 | ||
283 | ||
284 | ||
285 | case doEndAssign: | |
286 | { | |
287 | // We have reached the end of an assignement statement. | |
288 | // Current scan char is the ';' that terminates the assignment. | |
289 | ||
290 | // Terminate expression, leaves expression parse tree rooted in TOS node. | |
291 | fixOpStack(RBBINode::precStart); | |
292 | ||
293 | RBBINode *startExprNode = fNodeStack[fNodeStackPtr-2]; | |
294 | RBBINode *varRefNode = fNodeStack[fNodeStackPtr-1]; | |
295 | RBBINode *RHSExprNode = fNodeStack[fNodeStackPtr]; | |
296 | ||
297 | // Save original text of right side of assignment, excluding the terminating ';' | |
298 | // in the root of the node for the right-hand-side expression. | |
299 | RHSExprNode->fFirstPos = startExprNode->fFirstPos; | |
300 | RHSExprNode->fLastPos = fScanIndex; | |
301 | fRB->fRules.extractBetween(RHSExprNode->fFirstPos, RHSExprNode->fLastPos, RHSExprNode->fText); | |
302 | ||
303 | // Expression parse tree becomes l. child of the $variable reference node. | |
304 | varRefNode->fLeftChild = RHSExprNode; | |
305 | RHSExprNode->fParent = varRefNode; | |
306 | ||
307 | // Make a symbol table entry for the $variableRef node. | |
308 | fSymbolTable->addEntry(varRefNode->fText, varRefNode, *fRB->fStatus); | |
73c04bcf A |
309 | if (U_FAILURE(*fRB->fStatus)) { |
310 | // This is a round-about way to get the parse position set | |
311 | // so that duplicate symbols error messages include a line number. | |
312 | UErrorCode t = *fRB->fStatus; | |
313 | *fRB->fStatus = U_ZERO_ERROR; | |
314 | error(t); | |
315 | } | |
b75a7d8f A |
316 | |
317 | // Clean up the stack. | |
318 | delete startExprNode; | |
319 | fNodeStackPtr-=3; | |
320 | break; | |
321 | } | |
322 | ||
323 | case doEndOfRule: | |
324 | { | |
325 | fixOpStack(RBBINode::precStart); // Terminate expression, leaves expression | |
326 | if (U_FAILURE(*fRB->fStatus)) { // parse tree rooted in TOS node. | |
327 | break; | |
328 | } | |
73c04bcf | 329 | #ifdef RBBI_DEBUG |
b75a7d8f | 330 | if (fRB->fDebugEnv && uprv_strstr(fRB->fDebugEnv, "rtree")) {printNodeStack("end of rule");} |
73c04bcf | 331 | #endif |
b75a7d8f | 332 | U_ASSERT(fNodeStackPtr == 1); |
2ca993e8 | 333 | RBBINode *thisRule = fNodeStack[fNodeStackPtr]; |
b75a7d8f A |
334 | |
335 | // If this rule includes a look-ahead '/', add a endMark node to the | |
336 | // expression tree. | |
337 | if (fLookAheadRule) { | |
b75a7d8f A |
338 | RBBINode *endNode = pushNewNode(RBBINode::endMark); |
339 | RBBINode *catNode = pushNewNode(RBBINode::opCat); | |
2ca993e8 A |
340 | if (U_FAILURE(*fRB->fStatus)) { |
341 | break; | |
342 | } | |
b75a7d8f A |
343 | fNodeStackPtr -= 2; |
344 | catNode->fLeftChild = thisRule; | |
345 | catNode->fRightChild = endNode; | |
346 | fNodeStack[fNodeStackPtr] = catNode; | |
347 | endNode->fVal = fRuleNum; | |
348 | endNode->fLookAheadEnd = TRUE; | |
2ca993e8 A |
349 | thisRule = catNode; |
350 | ||
351 | // TODO: Disable chaining out of look-ahead (hard break) rules. | |
352 | // The break on rule match is forced, so there is no point in building up | |
353 | // the state table to chain into another rule for a longer match. | |
354 | } | |
355 | ||
356 | // Mark this node as being the root of a rule. | |
357 | thisRule->fRuleRoot = TRUE; | |
358 | ||
359 | // Flag if chaining into this rule is wanted. | |
360 | // | |
361 | if (fRB->fChainRules && // If rule chaining is enabled globally via !!chain | |
362 | !fNoChainInRule) { // and no '^' chain-in inhibit was on this rule | |
363 | thisRule->fChainIn = TRUE; | |
b75a7d8f A |
364 | } |
365 | ||
2ca993e8 | 366 | |
b75a7d8f A |
367 | // All rule expressions are ORed together. |
368 | // The ';' that terminates an expression really just functions as a '|' with | |
369 | // a low operator prededence. | |
370 | // | |
374ca955 A |
371 | // Each of the four sets of rules are collected separately. |
372 | // (forward, reverse, safe_forward, safe_reverse) | |
373 | // OR this rule into the appropriate group of them. | |
b75a7d8f | 374 | // |
0f5d89e8 | 375 | RBBINode **destRules = (fReverseRule? &fRB->fSafeRevTree : fRB->fDefaultTree); |
b75a7d8f A |
376 | |
377 | if (*destRules != NULL) { | |
378 | // This is not the first rule encounted. | |
379 | // OR previous stuff (from *destRules) | |
380 | // with the current rule expression (on the Node Stack) | |
381 | // with the resulting OR expression going to *destRules | |
382 | // | |
3d1f044b | 383 | thisRule = fNodeStack[fNodeStackPtr]; |
b75a7d8f A |
384 | RBBINode *prevRules = *destRules; |
385 | RBBINode *orNode = pushNewNode(RBBINode::opOr); | |
2ca993e8 A |
386 | if (U_FAILURE(*fRB->fStatus)) { |
387 | break; | |
388 | } | |
b75a7d8f A |
389 | orNode->fLeftChild = prevRules; |
390 | prevRules->fParent = orNode; | |
391 | orNode->fRightChild = thisRule; | |
392 | thisRule->fParent = orNode; | |
393 | *destRules = orNode; | |
394 | } | |
395 | else | |
396 | { | |
397 | // This is the first rule encountered (for this direction). | |
398 | // Just move its parse tree from the stack to *destRules. | |
399 | *destRules = fNodeStack[fNodeStackPtr]; | |
400 | } | |
401 | fReverseRule = FALSE; // in preparation for the next rule. | |
402 | fLookAheadRule = FALSE; | |
2ca993e8 | 403 | fNoChainInRule = FALSE; |
b75a7d8f A |
404 | fNodeStackPtr = 0; |
405 | } | |
406 | break; | |
407 | ||
408 | ||
409 | case doRuleError: | |
410 | error(U_BRK_RULE_SYNTAX); | |
411 | returnVal = FALSE; | |
412 | break; | |
413 | ||
414 | ||
415 | case doVariableNameExpectedErr: | |
416 | error(U_BRK_RULE_SYNTAX); | |
417 | break; | |
418 | ||
419 | ||
420 | // | |
421 | // Unary operands + ? * | |
422 | // These all appear after the operand to which they apply. | |
423 | // When we hit one, the operand (may be a whole sub expression) | |
424 | // will be on the top of the stack. | |
425 | // Unary Operator becomes TOS, with the old TOS as its one child. | |
426 | case doUnaryOpPlus: | |
427 | { | |
428 | RBBINode *operandNode = fNodeStack[fNodeStackPtr--]; | |
429 | RBBINode *plusNode = pushNewNode(RBBINode::opPlus); | |
2ca993e8 A |
430 | if (U_FAILURE(*fRB->fStatus)) { |
431 | break; | |
432 | } | |
b75a7d8f A |
433 | plusNode->fLeftChild = operandNode; |
434 | operandNode->fParent = plusNode; | |
435 | } | |
436 | break; | |
437 | ||
438 | case doUnaryOpQuestion: | |
439 | { | |
440 | RBBINode *operandNode = fNodeStack[fNodeStackPtr--]; | |
441 | RBBINode *qNode = pushNewNode(RBBINode::opQuestion); | |
2ca993e8 A |
442 | if (U_FAILURE(*fRB->fStatus)) { |
443 | break; | |
444 | } | |
b75a7d8f A |
445 | qNode->fLeftChild = operandNode; |
446 | operandNode->fParent = qNode; | |
447 | } | |
448 | break; | |
449 | ||
450 | case doUnaryOpStar: | |
451 | { | |
452 | RBBINode *operandNode = fNodeStack[fNodeStackPtr--]; | |
453 | RBBINode *starNode = pushNewNode(RBBINode::opStar); | |
2ca993e8 A |
454 | if (U_FAILURE(*fRB->fStatus)) { |
455 | break; | |
456 | } | |
b75a7d8f A |
457 | starNode->fLeftChild = operandNode; |
458 | operandNode->fParent = starNode; | |
459 | } | |
460 | break; | |
461 | ||
462 | case doRuleChar: | |
463 | // A "Rule Character" is any single character that is a literal part | |
464 | // of the regular expression. Like a, b and c in the expression "(abc*) | [:L:]" | |
465 | // These are pretty uncommon in break rules; the terms are more commonly | |
466 | // sets. To keep things uniform, treat these characters like as | |
467 | // sets that just happen to contain only one character. | |
468 | { | |
469 | n = pushNewNode(RBBINode::setRef); | |
2ca993e8 A |
470 | if (U_FAILURE(*fRB->fStatus)) { |
471 | break; | |
472 | } | |
4388f060 | 473 | findSetFor(UnicodeString(fC.fChar), n); |
b75a7d8f A |
474 | n->fFirstPos = fScanIndex; |
475 | n->fLastPos = fNextIndex; | |
476 | fRB->fRules.extractBetween(n->fFirstPos, n->fLastPos, n->fText); | |
477 | break; | |
478 | } | |
479 | ||
480 | case doDotAny: | |
481 | // scanned a ".", meaning match any single character. | |
482 | { | |
483 | n = pushNewNode(RBBINode::setRef); | |
2ca993e8 A |
484 | if (U_FAILURE(*fRB->fStatus)) { |
485 | break; | |
486 | } | |
4388f060 | 487 | findSetFor(UnicodeString(TRUE, kAny, 3), n); |
b75a7d8f A |
488 | n->fFirstPos = fScanIndex; |
489 | n->fLastPos = fNextIndex; | |
490 | fRB->fRules.extractBetween(n->fFirstPos, n->fLastPos, n->fText); | |
491 | break; | |
492 | } | |
b75a7d8f A |
493 | |
494 | case doSlash: | |
495 | // Scanned a '/', which identifies a look-ahead break position in a rule. | |
496 | n = pushNewNode(RBBINode::lookAhead); | |
2ca993e8 A |
497 | if (U_FAILURE(*fRB->fStatus)) { |
498 | break; | |
499 | } | |
b75a7d8f A |
500 | n->fVal = fRuleNum; |
501 | n->fFirstPos = fScanIndex; | |
502 | n->fLastPos = fNextIndex; | |
503 | fRB->fRules.extractBetween(n->fFirstPos, n->fLastPos, n->fText); | |
504 | fLookAheadRule = TRUE; | |
505 | break; | |
506 | ||
507 | ||
508 | case doStartTagValue: | |
509 | // Scanned a '{', the opening delimiter for a tag value within a rule. | |
510 | n = pushNewNode(RBBINode::tag); | |
2ca993e8 A |
511 | if (U_FAILURE(*fRB->fStatus)) { |
512 | break; | |
513 | } | |
b75a7d8f A |
514 | n->fVal = 0; |
515 | n->fFirstPos = fScanIndex; | |
516 | n->fLastPos = fNextIndex; | |
517 | break; | |
518 | ||
519 | case doTagDigit: | |
520 | // Just scanned a decimal digit that's part of a tag value | |
521 | { | |
522 | n = fNodeStack[fNodeStackPtr]; | |
523 | uint32_t v = u_charDigitValue(fC.fChar); | |
524 | U_ASSERT(v < 10); | |
525 | n->fVal = n->fVal*10 + v; | |
526 | break; | |
527 | } | |
528 | ||
529 | case doTagValue: | |
530 | n = fNodeStack[fNodeStackPtr]; | |
531 | n->fLastPos = fNextIndex; | |
532 | fRB->fRules.extractBetween(n->fFirstPos, n->fLastPos, n->fText); | |
533 | break; | |
534 | ||
374ca955 A |
535 | case doTagExpectedError: |
536 | error(U_BRK_MALFORMED_RULE_TAG); | |
537 | returnVal = FALSE; | |
538 | break; | |
539 | ||
540 | case doOptionStart: | |
541 | // Scanning a !!option. At the start of string. | |
542 | fOptionStart = fScanIndex; | |
543 | break; | |
b75a7d8f | 544 | |
374ca955 A |
545 | case doOptionEnd: |
546 | { | |
547 | UnicodeString opt(fRB->fRules, fOptionStart, fScanIndex-fOptionStart); | |
548 | if (opt == UNICODE_STRING("chain", 5)) { | |
549 | fRB->fChainRules = TRUE; | |
550 | } else if (opt == UNICODE_STRING("LBCMNoChain", 11)) { | |
551 | fRB->fLBCMNoChain = TRUE; | |
552 | } else if (opt == UNICODE_STRING("forward", 7)) { | |
553 | fRB->fDefaultTree = &fRB->fForwardTree; | |
554 | } else if (opt == UNICODE_STRING("reverse", 7)) { | |
555 | fRB->fDefaultTree = &fRB->fReverseTree; | |
556 | } else if (opt == UNICODE_STRING("safe_forward", 12)) { | |
557 | fRB->fDefaultTree = &fRB->fSafeFwdTree; | |
558 | } else if (opt == UNICODE_STRING("safe_reverse", 12)) { | |
559 | fRB->fDefaultTree = &fRB->fSafeRevTree; | |
560 | } else if (opt == UNICODE_STRING("lookAheadHardBreak", 18)) { | |
561 | fRB->fLookAheadHardBreak = TRUE; | |
0f5d89e8 A |
562 | } else if (opt == UNICODE_STRING("quoted_literals_only", 20)) { |
563 | fRuleSets[kRuleSet_rule_char-128].clear(); | |
564 | } else if (opt == UNICODE_STRING("unquoted_literals", 17)) { | |
565 | fRuleSets[kRuleSet_rule_char-128].applyPattern(UnicodeString(gRuleSet_rule_char_pattern), *fRB->fStatus); | |
374ca955 A |
566 | } else { |
567 | error(U_BRK_UNRECOGNIZED_OPTION); | |
568 | } | |
569 | } | |
570 | break; | |
b75a7d8f A |
571 | |
572 | case doReverseDir: | |
573 | fReverseRule = TRUE; | |
574 | break; | |
575 | ||
576 | case doStartVariableName: | |
577 | n = pushNewNode(RBBINode::varRef); | |
578 | if (U_FAILURE(*fRB->fStatus)) { | |
579 | break; | |
580 | } | |
581 | n->fFirstPos = fScanIndex; | |
582 | break; | |
583 | ||
584 | case doEndVariableName: | |
585 | n = fNodeStack[fNodeStackPtr]; | |
586 | if (n==NULL || n->fType != RBBINode::varRef) { | |
587 | error(U_BRK_INTERNAL_ERROR); | |
588 | break; | |
589 | } | |
590 | n->fLastPos = fScanIndex; | |
591 | fRB->fRules.extractBetween(n->fFirstPos+1, n->fLastPos, n->fText); | |
592 | // Look the newly scanned name up in the symbol table | |
593 | // If there's an entry, set the l. child of the var ref to the replacement expression. | |
594 | // (We also pass through here when scanning assignments, but no harm is done, other | |
595 | // than a slight wasted effort that seems hard to avoid. Lookup will be null) | |
596 | n->fLeftChild = fSymbolTable->lookupNode(n->fText); | |
597 | break; | |
598 | ||
599 | case doCheckVarDef: | |
600 | n = fNodeStack[fNodeStackPtr]; | |
601 | if (n->fLeftChild == NULL) { | |
602 | error(U_BRK_UNDEFINED_VARIABLE); | |
603 | returnVal = FALSE; | |
604 | } | |
605 | break; | |
606 | ||
607 | case doExprFinished: | |
608 | break; | |
609 | ||
610 | case doRuleErrorAssignExpr: | |
611 | error(U_BRK_ASSIGN_ERROR); | |
612 | returnVal = FALSE; | |
613 | break; | |
614 | ||
615 | case doExit: | |
616 | returnVal = FALSE; | |
617 | break; | |
618 | ||
619 | case doScanUnicodeSet: | |
620 | scanSet(); | |
621 | break; | |
622 | ||
623 | default: | |
624 | error(U_BRK_INTERNAL_ERROR); | |
625 | returnVal = FALSE; | |
626 | break; | |
627 | } | |
2ca993e8 | 628 | return returnVal && U_SUCCESS(*fRB->fStatus); |
b75a7d8f A |
629 | } |
630 | ||
631 | ||
632 | ||
633 | ||
46f4442e | 634 | //------------------------------------------------------------------------------ |
b75a7d8f A |
635 | // |
636 | // Error Report a rule parse error. | |
637 | // Only report it if no previous error has been recorded. | |
638 | // | |
46f4442e | 639 | //------------------------------------------------------------------------------ |
b75a7d8f A |
640 | void RBBIRuleScanner::error(UErrorCode e) { |
641 | if (U_SUCCESS(*fRB->fStatus)) { | |
642 | *fRB->fStatus = e; | |
46f4442e A |
643 | if (fRB->fParseError) { |
644 | fRB->fParseError->line = fLineNum; | |
645 | fRB->fParseError->offset = fCharNum; | |
646 | fRB->fParseError->preContext[0] = 0; | |
b331163b | 647 | fRB->fParseError->postContext[0] = 0; |
46f4442e | 648 | } |
b75a7d8f A |
649 | } |
650 | } | |
651 | ||
652 | ||
653 | ||
654 | ||
46f4442e | 655 | //------------------------------------------------------------------------------ |
b75a7d8f A |
656 | // |
657 | // fixOpStack The parse stack holds partially assembled chunks of the parse tree. | |
658 | // An entry on the stack may be as small as a single setRef node, | |
659 | // or as large as the parse tree | |
660 | // for an entire expression (this will be the one item left on the stack | |
661 | // when the parsing of an RBBI rule completes. | |
662 | // | |
663 | // This function is called when a binary operator is encountered. | |
664 | // It looks back up the stack for operators that are not yet associated | |
665 | // with a right operand, and if the precedence of the stacked operator >= | |
666 | // the precedence of the current operator, binds the operand left, | |
667 | // to the previously encountered operator. | |
668 | // | |
46f4442e | 669 | //------------------------------------------------------------------------------ |
b75a7d8f A |
670 | void RBBIRuleScanner::fixOpStack(RBBINode::OpPrecedence p) { |
671 | RBBINode *n; | |
672 | // printNodeStack("entering fixOpStack()"); | |
673 | for (;;) { | |
674 | n = fNodeStack[fNodeStackPtr-1]; // an operator node | |
675 | if (n->fPrecedence == 0) { | |
374ca955 | 676 | RBBIDebugPuts("RBBIRuleScanner::fixOpStack, bad operator node"); |
b75a7d8f A |
677 | error(U_BRK_INTERNAL_ERROR); |
678 | return; | |
679 | } | |
680 | ||
681 | if (n->fPrecedence < p || n->fPrecedence <= RBBINode::precLParen) { | |
682 | // The most recent operand goes with the current operator, | |
683 | // not with the previously stacked one. | |
684 | break; | |
685 | } | |
686 | // Stack operator is a binary op ( '|' or concatenation) | |
687 | // TOS operand becomes right child of this operator. | |
688 | // Resulting subexpression becomes the TOS operand. | |
689 | n->fRightChild = fNodeStack[fNodeStackPtr]; | |
690 | fNodeStack[fNodeStackPtr]->fParent = n; | |
691 | fNodeStackPtr--; | |
692 | // printNodeStack("looping in fixOpStack() "); | |
693 | } | |
694 | ||
695 | if (p <= RBBINode::precLParen) { | |
696 | // Scan is at a right paren or end of expression. | |
697 | // The scanned item must match the stack, or else there was an error. | |
698 | // Discard the left paren (or start expr) node from the stack, | |
699 | // leaving the completed (sub)expression as TOS. | |
700 | if (n->fPrecedence != p) { | |
701 | // Right paren encountered matched start of expression node, or | |
702 | // end of expression matched with a left paren node. | |
703 | error(U_BRK_MISMATCHED_PAREN); | |
704 | } | |
705 | fNodeStack[fNodeStackPtr-1] = fNodeStack[fNodeStackPtr]; | |
706 | fNodeStackPtr--; | |
707 | // Delete the now-discarded LParen or Start node. | |
708 | delete n; | |
709 | } | |
710 | // printNodeStack("leaving fixOpStack()"); | |
711 | } | |
712 | ||
713 | ||
714 | ||
715 | ||
46f4442e | 716 | //------------------------------------------------------------------------------ |
b75a7d8f A |
717 | // |
718 | // findSetFor given a UnicodeString, | |
719 | // - find the corresponding Unicode Set (uset node) | |
720 | // (create one if necessary) | |
721 | // - Set fLeftChild of the caller's node (should be a setRef node) | |
722 | // to the uset node | |
723 | // Maintain a hash table of uset nodes, so the same one is always used | |
724 | // for the same string. | |
725 | // If a "to adopt" set is provided and we haven't seen this key before, | |
726 | // add the provided set to the hash table. | |
727 | // If the string is one (32 bit) char in length, the set contains | |
728 | // just one element which is the char in question. | |
729 | // If the string is "any", return a set containing all chars. | |
730 | // | |
46f4442e | 731 | //------------------------------------------------------------------------------ |
b75a7d8f A |
732 | void RBBIRuleScanner::findSetFor(const UnicodeString &s, RBBINode *node, UnicodeSet *setToAdopt) { |
733 | ||
734 | RBBISetTableEl *el; | |
735 | ||
736 | // First check whether we've already cached a set for this string. | |
737 | // If so, just use the cached set in the new node. | |
738 | // delete any set provided by the caller, since we own it. | |
739 | el = (RBBISetTableEl *)uhash_get(fSetTable, &s); | |
740 | if (el != NULL) { | |
741 | delete setToAdopt; | |
742 | node->fLeftChild = el->val; | |
743 | U_ASSERT(node->fLeftChild->fType == RBBINode::uset); | |
744 | return; | |
745 | } | |
746 | ||
747 | // Haven't seen this set before. | |
748 | // If the caller didn't provide us with a prebuilt set, | |
749 | // create a new UnicodeSet now. | |
750 | if (setToAdopt == NULL) { | |
751 | if (s.compare(kAny, -1) == 0) { | |
752 | setToAdopt = new UnicodeSet(0x000000, 0x10ffff); | |
753 | } else { | |
754 | UChar32 c; | |
755 | c = s.char32At(0); | |
756 | setToAdopt = new UnicodeSet(c, c); | |
757 | } | |
758 | } | |
759 | ||
760 | // | |
761 | // Make a new uset node to refer to this UnicodeSet | |
762 | // This new uset node becomes the child of the caller's setReference node. | |
763 | // | |
764 | RBBINode *usetNode = new RBBINode(RBBINode::uset); | |
46f4442e A |
765 | if (usetNode == NULL) { |
766 | error(U_MEMORY_ALLOCATION_ERROR); | |
767 | return; | |
768 | } | |
b75a7d8f A |
769 | usetNode->fInputSet = setToAdopt; |
770 | usetNode->fParent = node; | |
771 | node->fLeftChild = usetNode; | |
772 | usetNode->fText = s; | |
773 | ||
774 | ||
775 | // | |
776 | // Add the new uset node to the list of all uset nodes. | |
777 | // | |
778 | fRB->fUSetNodes->addElement(usetNode, *fRB->fStatus); | |
779 | ||
780 | ||
781 | // | |
782 | // Add the new set to the set hash table. | |
783 | // | |
784 | el = (RBBISetTableEl *)uprv_malloc(sizeof(RBBISetTableEl)); | |
785 | UnicodeString *tkey = new UnicodeString(s); | |
786 | if (tkey == NULL || el == NULL || setToAdopt == NULL) { | |
46f4442e A |
787 | // Delete to avoid memory leak |
788 | delete tkey; | |
789 | tkey = NULL; | |
790 | uprv_free(el); | |
791 | el = NULL; | |
792 | delete setToAdopt; | |
793 | setToAdopt = NULL; | |
794 | ||
b75a7d8f A |
795 | error(U_MEMORY_ALLOCATION_ERROR); |
796 | return; | |
797 | } | |
798 | el->key = tkey; | |
799 | el->val = usetNode; | |
800 | uhash_put(fSetTable, el->key, el, fRB->fStatus); | |
801 | ||
802 | return; | |
803 | } | |
804 | ||
805 | ||
806 | ||
807 | // | |
808 | // Assorted Unicode character constants. | |
809 | // Numeric because there is no portable way to enter them as literals. | |
810 | // (Think EBCDIC). | |
811 | // | |
812 | static const UChar chCR = 0x0d; // New lines, for terminating comments. | |
813 | static const UChar chLF = 0x0a; | |
814 | static const UChar chNEL = 0x85; // NEL newline variant | |
815 | static const UChar chLS = 0x2028; // Unicode Line Separator | |
816 | static const UChar chApos = 0x27; // single quote, for quoted chars. | |
817 | static const UChar chPound = 0x23; // '#', introduces a comment. | |
818 | static const UChar chBackSlash = 0x5c; // '\' introduces a char escape | |
819 | static const UChar chLParen = 0x28; | |
820 | static const UChar chRParen = 0x29; | |
821 | ||
822 | ||
46f4442e | 823 | //------------------------------------------------------------------------------ |
b75a7d8f | 824 | // |
0f5d89e8 A |
825 | // stripRules Return a rules string without extra spaces. |
826 | // (Comments are removed separately, during rule parsing.) | |
b75a7d8f | 827 | // |
46f4442e | 828 | //------------------------------------------------------------------------------ |
b75a7d8f A |
829 | UnicodeString RBBIRuleScanner::stripRules(const UnicodeString &rules) { |
830 | UnicodeString strippedRules; | |
0f5d89e8 A |
831 | int32_t rulesLength = rules.length(); |
832 | bool skippingSpaces = false; | |
833 | ||
834 | for (int32_t idx=0; idx<rulesLength; idx = rules.moveIndex32(idx, 1)) { | |
835 | UChar32 cp = rules.char32At(idx); | |
836 | bool whiteSpace = u_hasBinaryProperty(cp, UCHAR_PATTERN_WHITE_SPACE); | |
837 | if (skippingSpaces && whiteSpace) { | |
838 | continue; | |
b75a7d8f | 839 | } |
0f5d89e8 A |
840 | strippedRules.append(cp); |
841 | skippingSpaces = whiteSpace; | |
b75a7d8f | 842 | } |
b75a7d8f A |
843 | return strippedRules; |
844 | } | |
845 | ||
846 | ||
46f4442e | 847 | //------------------------------------------------------------------------------ |
b75a7d8f A |
848 | // |
849 | // nextCharLL Low Level Next Char from rule input source. | |
850 | // Get a char from the input character iterator, | |
851 | // keep track of input position for error reporting. | |
852 | // | |
46f4442e | 853 | //------------------------------------------------------------------------------ |
b75a7d8f A |
854 | UChar32 RBBIRuleScanner::nextCharLL() { |
855 | UChar32 ch; | |
856 | ||
857 | if (fNextIndex >= fRB->fRules.length()) { | |
858 | return (UChar32)-1; | |
859 | } | |
860 | ch = fRB->fRules.char32At(fNextIndex); | |
861 | fNextIndex = fRB->fRules.moveIndex32(fNextIndex, 1); | |
862 | ||
863 | if (ch == chCR || | |
864 | ch == chNEL || | |
865 | ch == chLS || | |
729e4ab9 | 866 | (ch == chLF && fLastChar != chCR)) { |
b75a7d8f A |
867 | // Character is starting a new line. Bump up the line number, and |
868 | // reset the column to 0. | |
869 | fLineNum++; | |
870 | fCharNum=0; | |
871 | if (fQuoteMode) { | |
872 | error(U_BRK_NEW_LINE_IN_QUOTED_STRING); | |
873 | fQuoteMode = FALSE; | |
874 | } | |
875 | } | |
876 | else { | |
877 | // Character is not starting a new line. Except in the case of a | |
878 | // LF following a CR, increment the column position. | |
879 | if (ch != chLF) { | |
880 | fCharNum++; | |
881 | } | |
882 | } | |
883 | fLastChar = ch; | |
884 | return ch; | |
885 | } | |
886 | ||
887 | ||
46f4442e | 888 | //------------------------------------------------------------------------------ |
b75a7d8f A |
889 | // |
890 | // nextChar for rules scanning. At this level, we handle stripping | |
891 | // out comments and processing backslash character escapes. | |
892 | // The rest of the rules grammar is handled at the next level up. | |
893 | // | |
46f4442e | 894 | //------------------------------------------------------------------------------ |
b75a7d8f A |
895 | void RBBIRuleScanner::nextChar(RBBIRuleChar &c) { |
896 | ||
897 | // Unicode Character constants needed for the processing done by nextChar(), | |
898 | // in hex because literals wont work on EBCDIC machines. | |
899 | ||
900 | fScanIndex = fNextIndex; | |
901 | c.fChar = nextCharLL(); | |
902 | c.fEscaped = FALSE; | |
903 | ||
904 | // | |
905 | // check for '' sequence. | |
906 | // These are recognized in all contexts, whether in quoted text or not. | |
907 | // | |
908 | if (c.fChar == chApos) { | |
909 | if (fRB->fRules.char32At(fNextIndex) == chApos) { | |
910 | c.fChar = nextCharLL(); // get nextChar officially so character counts | |
911 | c.fEscaped = TRUE; // stay correct. | |
912 | } | |
913 | else | |
914 | { | |
915 | // Single quote, by itself. | |
916 | // Toggle quoting mode. | |
917 | // Return either '(' or ')', because quotes cause a grouping of the quoted text. | |
918 | fQuoteMode = !fQuoteMode; | |
919 | if (fQuoteMode == TRUE) { | |
920 | c.fChar = chLParen; | |
921 | } else { | |
922 | c.fChar = chRParen; | |
923 | } | |
924 | c.fEscaped = FALSE; // The paren that we return is not escaped. | |
925 | return; | |
926 | } | |
927 | } | |
928 | ||
929 | if (fQuoteMode) { | |
930 | c.fEscaped = TRUE; | |
931 | } | |
932 | else | |
933 | { | |
934 | // We are not in a 'quoted region' of the source. | |
935 | // | |
936 | if (c.fChar == chPound) { | |
937 | // Start of a comment. Consume the rest of it. | |
938 | // The new-line char that terminates the comment is always returned. | |
939 | // It will be treated as white-space, and serves to break up anything | |
940 | // that might otherwise incorrectly clump together with a comment in | |
941 | // the middle (a variable name, for example.) | |
0f5d89e8 | 942 | int32_t commentStart = fScanIndex; |
b75a7d8f A |
943 | for (;;) { |
944 | c.fChar = nextCharLL(); | |
945 | if (c.fChar == (UChar32)-1 || // EOF | |
946 | c.fChar == chCR || | |
947 | c.fChar == chLF || | |
948 | c.fChar == chNEL || | |
949 | c.fChar == chLS) {break;} | |
950 | } | |
0f5d89e8 A |
951 | for (int32_t i=commentStart; i<fNextIndex-1; ++i) { |
952 | fRB->fStrippedRules.setCharAt(i, u' '); | |
953 | } | |
b75a7d8f A |
954 | } |
955 | if (c.fChar == (UChar32)-1) { | |
956 | return; | |
957 | } | |
958 | ||
959 | // | |
960 | // check for backslash escaped characters. | |
961 | // Use UnicodeString::unescapeAt() to handle them. | |
962 | // | |
963 | if (c.fChar == chBackSlash) { | |
964 | c.fEscaped = TRUE; | |
965 | int32_t startX = fNextIndex; | |
966 | c.fChar = fRB->fRules.unescapeAt(fNextIndex); | |
967 | if (fNextIndex == startX) { | |
968 | error(U_BRK_HEX_DIGITS_EXPECTED); | |
969 | } | |
970 | fCharNum += fNextIndex-startX; | |
971 | } | |
972 | } | |
973 | // putc(c.fChar, stdout); | |
974 | } | |
975 | ||
46f4442e | 976 | //------------------------------------------------------------------------------ |
b75a7d8f A |
977 | // |
978 | // Parse RBBI rules. The state machine for rules parsing is here. | |
374ca955 | 979 | // The state tables are hand-written in the file rbbirpt.txt, |
b75a7d8f A |
980 | // and converted to the form used here by a perl |
981 | // script rbbicst.pl | |
982 | // | |
46f4442e | 983 | //------------------------------------------------------------------------------ |
b75a7d8f A |
984 | void RBBIRuleScanner::parse() { |
985 | uint16_t state; | |
986 | const RBBIRuleTableEl *tableEl; | |
987 | ||
988 | if (U_FAILURE(*fRB->fStatus)) { | |
989 | return; | |
990 | } | |
991 | ||
992 | state = 1; | |
993 | nextChar(fC); | |
994 | // | |
995 | // Main loop for the rule parsing state machine. | |
996 | // Runs once per state transition. | |
997 | // Each time through optionally performs, depending on the state table, | |
998 | // - an advance to the the next input char | |
999 | // - an action to be performed. | |
1000 | // - pushing or popping a state to/from the local state return stack. | |
1001 | // | |
1002 | for (;;) { | |
1003 | // Bail out if anything has gone wrong. | |
1004 | // RBBI rule file parsing stops on the first error encountered. | |
1005 | if (U_FAILURE(*fRB->fStatus)) { | |
1006 | break; | |
1007 | } | |
1008 | ||
1009 | // Quit if state == 0. This is the normal way to exit the state machine. | |
1010 | // | |
1011 | if (state == 0) { | |
1012 | break; | |
1013 | } | |
1014 | ||
1015 | // Find the state table element that matches the input char from the rule, or the | |
1016 | // class of the input character. Start with the first table row for this | |
1017 | // state, then linearly scan forward until we find a row that matches the | |
1018 | // character. The last row for each state always matches all characters, so | |
1019 | // the search will stop there, if not before. | |
1020 | // | |
1021 | tableEl = &gRuleParseStateTable[state]; | |
374ca955 A |
1022 | #ifdef RBBI_DEBUG |
1023 | if (fRB->fDebugEnv && uprv_strstr(fRB->fDebugEnv, "scan")) { | |
1024 | RBBIDebugPrintf("char, line, col = (\'%c\', %d, %d) state=%s ", | |
1025 | fC.fChar, fLineNum, fCharNum, RBBIRuleStateNames[state]); | |
1026 | } | |
1027 | #endif | |
b75a7d8f A |
1028 | |
1029 | for (;;) { | |
73c04bcf | 1030 | #ifdef RBBI_DEBUG |
2ca993e8 | 1031 | if (fRB->fDebugEnv && uprv_strstr(fRB->fDebugEnv, "scan")) { RBBIDebugPrintf("."); fflush(stdout);} |
73c04bcf | 1032 | #endif |
b75a7d8f A |
1033 | if (tableEl->fCharClass < 127 && fC.fEscaped == FALSE && tableEl->fCharClass == fC.fChar) { |
1034 | // Table row specified an individual character, not a set, and | |
1035 | // the input character is not escaped, and | |
1036 | // the input character matched it. | |
1037 | break; | |
1038 | } | |
1039 | if (tableEl->fCharClass == 255) { | |
1040 | // Table row specified default, match anything character class. | |
1041 | break; | |
1042 | } | |
1043 | if (tableEl->fCharClass == 254 && fC.fEscaped) { | |
1044 | // Table row specified "escaped" and the char was escaped. | |
1045 | break; | |
1046 | } | |
1047 | if (tableEl->fCharClass == 253 && fC.fEscaped && | |
1048 | (fC.fChar == 0x50 || fC.fChar == 0x70 )) { | |
1049 | // Table row specified "escaped P" and the char is either 'p' or 'P'. | |
1050 | break; | |
1051 | } | |
1052 | if (tableEl->fCharClass == 252 && fC.fChar == (UChar32)-1) { | |
1053 | // Table row specified eof and we hit eof on the input. | |
1054 | break; | |
1055 | } | |
1056 | ||
1057 | if (tableEl->fCharClass >= 128 && tableEl->fCharClass < 240 && // Table specs a char class && | |
1058 | fC.fEscaped == FALSE && // char is not escaped && | |
1059 | fC.fChar != (UChar32)-1) { // char is not EOF | |
b331163b | 1060 | U_ASSERT((tableEl->fCharClass-128) < UPRV_LENGTHOF(fRuleSets)); |
46f4442e | 1061 | if (fRuleSets[tableEl->fCharClass-128].contains(fC.fChar)) { |
b75a7d8f A |
1062 | // Table row specified a character class, or set of characters, |
1063 | // and the current char matches it. | |
1064 | break; | |
1065 | } | |
1066 | } | |
1067 | ||
1068 | // No match on this row, advance to the next row for this state, | |
1069 | tableEl++; | |
1070 | } | |
73c04bcf | 1071 | if (fRB->fDebugEnv && uprv_strstr(fRB->fDebugEnv, "scan")) { RBBIDebugPuts("");} |
b75a7d8f A |
1072 | |
1073 | // | |
1074 | // We've found the row of the state table that matches the current input | |
1075 | // character from the rules string. | |
1076 | // Perform any action specified by this row in the state table. | |
46f4442e | 1077 | if (doParseActions((int32_t)tableEl->fAction) == FALSE) { |
b75a7d8f A |
1078 | // Break out of the state machine loop if the |
1079 | // the action signalled some kind of error, or | |
1080 | // the action was to exit, occurs on normal end-of-rules-input. | |
1081 | break; | |
1082 | } | |
1083 | ||
1084 | if (tableEl->fPushState != 0) { | |
1085 | fStackPtr++; | |
1086 | if (fStackPtr >= kStackSize) { | |
1087 | error(U_BRK_INTERNAL_ERROR); | |
374ca955 | 1088 | RBBIDebugPuts("RBBIRuleScanner::parse() - state stack overflow."); |
b75a7d8f A |
1089 | fStackPtr--; |
1090 | } | |
1091 | fStack[fStackPtr] = tableEl->fPushState; | |
1092 | } | |
1093 | ||
1094 | if (tableEl->fNextChar) { | |
1095 | nextChar(fC); | |
1096 | } | |
1097 | ||
1098 | // Get the next state from the table entry, or from the | |
1099 | // state stack if the next state was specified as "pop". | |
1100 | if (tableEl->fNextState != 255) { | |
1101 | state = tableEl->fNextState; | |
1102 | } else { | |
1103 | state = fStack[fStackPtr]; | |
1104 | fStackPtr--; | |
1105 | if (fStackPtr < 0) { | |
1106 | error(U_BRK_INTERNAL_ERROR); | |
374ca955 | 1107 | RBBIDebugPuts("RBBIRuleScanner::parse() - state stack underflow."); |
b75a7d8f A |
1108 | fStackPtr++; |
1109 | } | |
1110 | } | |
1111 | ||
1112 | } | |
1113 | ||
f3c0d7a5 A |
1114 | if (U_FAILURE(*fRB->fStatus)) { |
1115 | return; | |
1116 | } | |
1117 | ||
1118 | // If there are no forward rules set an error. | |
1119 | // | |
1120 | if (fRB->fForwardTree == NULL) { | |
1121 | error(U_BRK_RULE_SYNTAX); | |
1122 | return; | |
1123 | } | |
1124 | ||
b75a7d8f A |
1125 | // |
1126 | // Parsing of the input RBBI rules is complete. | |
1127 | // We now have a parse tree for the rule expressions | |
1128 | // and a list of all UnicodeSets that are referenced. | |
1129 | // | |
374ca955 A |
1130 | #ifdef RBBI_DEBUG |
1131 | if (fRB->fDebugEnv && uprv_strstr(fRB->fDebugEnv, "symbols")) {fSymbolTable->rbbiSymtablePrint();} | |
f3c0d7a5 | 1132 | if (fRB->fDebugEnv && uprv_strstr(fRB->fDebugEnv, "ptree")) { |
b75a7d8f | 1133 | RBBIDebugPrintf("Completed Forward Rules Parse Tree...\n"); |
f3c0d7a5 | 1134 | RBBINode::printTree(fRB->fForwardTree, TRUE); |
b75a7d8f | 1135 | RBBIDebugPrintf("\nCompleted Reverse Rules Parse Tree...\n"); |
f3c0d7a5 | 1136 | RBBINode::printTree(fRB->fReverseTree, TRUE); |
374ca955 | 1137 | RBBIDebugPrintf("\nCompleted Safe Point Forward Rules Parse Tree...\n"); |
f3c0d7a5 | 1138 | RBBINode::printTree(fRB->fSafeFwdTree, TRUE); |
374ca955 | 1139 | RBBIDebugPrintf("\nCompleted Safe Point Reverse Rules Parse Tree...\n"); |
f3c0d7a5 | 1140 | RBBINode::printTree(fRB->fSafeRevTree, TRUE); |
b75a7d8f | 1141 | } |
374ca955 | 1142 | #endif |
b75a7d8f A |
1143 | } |
1144 | ||
1145 | ||
46f4442e | 1146 | //------------------------------------------------------------------------------ |
b75a7d8f A |
1147 | // |
1148 | // printNodeStack for debugging... | |
1149 | // | |
46f4442e | 1150 | //------------------------------------------------------------------------------ |
374ca955 | 1151 | #ifdef RBBI_DEBUG |
b75a7d8f A |
1152 | void RBBIRuleScanner::printNodeStack(const char *title) { |
1153 | int i; | |
1154 | RBBIDebugPrintf("%s. Dumping node stack...\n", title); | |
f3c0d7a5 | 1155 | for (i=fNodeStackPtr; i>0; i--) {RBBINode::printTree(fNodeStack[i], TRUE);} |
b75a7d8f | 1156 | } |
374ca955 | 1157 | #endif |
b75a7d8f A |
1158 | |
1159 | ||
1160 | ||
1161 | ||
46f4442e | 1162 | //------------------------------------------------------------------------------ |
b75a7d8f A |
1163 | // |
1164 | // pushNewNode create a new RBBINode of the specified type and push it | |
1165 | // onto the stack of nodes. | |
1166 | // | |
46f4442e | 1167 | //------------------------------------------------------------------------------ |
b75a7d8f | 1168 | RBBINode *RBBIRuleScanner::pushNewNode(RBBINode::NodeType t) { |
2ca993e8 A |
1169 | if (U_FAILURE(*fRB->fStatus)) { |
1170 | return NULL; | |
1171 | } | |
f3c0d7a5 A |
1172 | if (fNodeStackPtr >= kStackSize - 1) { |
1173 | error(U_BRK_RULE_SYNTAX); | |
374ca955 | 1174 | RBBIDebugPuts("RBBIRuleScanner::pushNewNode - stack overflow."); |
b75a7d8f A |
1175 | return NULL; |
1176 | } | |
f3c0d7a5 | 1177 | fNodeStackPtr++; |
b75a7d8f A |
1178 | fNodeStack[fNodeStackPtr] = new RBBINode(t); |
1179 | if (fNodeStack[fNodeStackPtr] == NULL) { | |
1180 | *fRB->fStatus = U_MEMORY_ALLOCATION_ERROR; | |
1181 | } | |
1182 | return fNodeStack[fNodeStackPtr]; | |
1183 | } | |
1184 | ||
1185 | ||
1186 | ||
46f4442e | 1187 | //------------------------------------------------------------------------------ |
b75a7d8f A |
1188 | // |
1189 | // scanSet Construct a UnicodeSet from the text at the current scan | |
1190 | // position. Advance the scan position to the first character | |
1191 | // after the set. | |
1192 | // | |
1193 | // A new RBBI setref node referring to the set is pushed onto the node | |
1194 | // stack. | |
1195 | // | |
1196 | // The scan position is normally under the control of the state machine | |
1197 | // that controls rule parsing. UnicodeSets, however, are parsed by | |
1198 | // the UnicodeSet constructor, not by the RBBI rule parser. | |
1199 | // | |
46f4442e | 1200 | //------------------------------------------------------------------------------ |
b75a7d8f A |
1201 | void RBBIRuleScanner::scanSet() { |
1202 | UnicodeSet *uset; | |
1203 | ParsePosition pos; | |
1204 | int startPos; | |
1205 | int i; | |
1206 | ||
1207 | if (U_FAILURE(*fRB->fStatus)) { | |
1208 | return; | |
1209 | } | |
1210 | ||
1211 | pos.setIndex(fScanIndex); | |
1212 | startPos = fScanIndex; | |
1213 | UErrorCode localStatus = U_ZERO_ERROR; | |
4388f060 | 1214 | uset = new UnicodeSet(); |
46f4442e A |
1215 | if (uset == NULL) { |
1216 | localStatus = U_MEMORY_ALLOCATION_ERROR; | |
4388f060 A |
1217 | } else { |
1218 | uset->applyPatternIgnoreSpace(fRB->fRules, pos, fSymbolTable, localStatus); | |
46f4442e | 1219 | } |
b75a7d8f A |
1220 | if (U_FAILURE(localStatus)) { |
1221 | // TODO: Get more accurate position of the error from UnicodeSet's return info. | |
1222 | // UnicodeSet appears to not be reporting correctly at this time. | |
73c04bcf A |
1223 | #ifdef RBBI_DEBUG |
1224 | RBBIDebugPrintf("UnicodeSet parse postion.ErrorIndex = %d\n", pos.getIndex()); | |
1225 | #endif | |
b75a7d8f A |
1226 | error(localStatus); |
1227 | delete uset; | |
1228 | return; | |
1229 | } | |
1230 | ||
1231 | // Verify that the set contains at least one code point. | |
1232 | // | |
4388f060 | 1233 | U_ASSERT(uset!=NULL); |
73c04bcf | 1234 | if (uset->isEmpty()) { |
b75a7d8f A |
1235 | // This set is empty. |
1236 | // Make it an error, because it almost certainly is not what the user wanted. | |
1237 | // Also, avoids having to think about corner cases in the tree manipulation code | |
1238 | // that occurs later on. | |
1239 | error(U_BRK_RULE_EMPTY_SET); | |
1240 | delete uset; | |
1241 | return; | |
1242 | } | |
1243 | ||
1244 | ||
1245 | // Advance the RBBI parse postion over the UnicodeSet pattern. | |
1246 | // Don't just set fScanIndex because the line/char positions maintained | |
1247 | // for error reporting would be thrown off. | |
1248 | i = pos.getIndex(); | |
1249 | for (;;) { | |
1250 | if (fNextIndex >= i) { | |
1251 | break; | |
1252 | } | |
1253 | nextCharLL(); | |
1254 | } | |
1255 | ||
1256 | if (U_SUCCESS(*fRB->fStatus)) { | |
1257 | RBBINode *n; | |
1258 | ||
1259 | n = pushNewNode(RBBINode::setRef); | |
2ca993e8 A |
1260 | if (U_FAILURE(*fRB->fStatus)) { |
1261 | return; | |
1262 | } | |
b75a7d8f A |
1263 | n->fFirstPos = startPos; |
1264 | n->fLastPos = fNextIndex; | |
1265 | fRB->fRules.extractBetween(n->fFirstPos, n->fLastPos, n->fText); | |
1266 | // findSetFor() serves several purposes here: | |
1267 | // - Adopts storage for the UnicodeSet, will be responsible for deleting. | |
1268 | // - Mantains collection of all sets in use, needed later for establishing | |
1269 | // character categories for run time engine. | |
1270 | // - Eliminates mulitiple instances of the same set. | |
1271 | // - Creates a new uset node if necessary (if this isn't a duplicate.) | |
1272 | findSetFor(n->fText, n, uset); | |
1273 | } | |
1274 | ||
1275 | } | |
1276 | ||
1277 | U_NAMESPACE_END | |
1278 | ||
1279 | #endif /* #if !UCONFIG_NO_BREAK_ITERATION */ |