1 /* 2 ******************************************************************************* 3 * Copyright (C) 1996-2011, International Business Machines 4 * Corporation and others. All Rights Reserved. 5 ******************************************************************************* 6 * file name: ucol_res.cpp 7 * encoding: US-ASCII 8 * tab size: 8 (not used) 9 * indentation:4 10 * 11 * Description: 12 * This file contains dependencies that the collation run-time doesn't normally 13 * need. This mainly contains resource bundle usage and collation meta information 14 * 15 * Modification history 16 * Date Name Comments 17 * 1996-1999 various members of ICU team maintained C API for collation framework 18 * 02/16/2001 synwee Added internal method getPrevSpecialCE 19 * 03/01/2001 synwee Added maxexpansion functionality. 20 * 03/16/2001 weiv Collation framework is rewritten in C and made UCA compliant 21 * 12/08/2004 grhoten Split part of ucol.cpp into ucol_res.cpp 22 */ 23 24 #include "unicode/utypes.h" 25 26 #if !UCONFIG_NO_COLLATION 27 #include "unicode/uloc.h" 28 #include "unicode/coll.h" 29 #include "unicode/tblcoll.h" 30 #include "unicode/caniter.h" 31 #include "unicode/uscript.h" 32 #include "unicode/ustring.h" 33 34 #include "ucol_bld.h" 35 #include "ucol_imp.h" 36 #include "ucol_tok.h" 37 #include "ucol_elm.h" 38 #include "uresimp.h" 39 #include "ustr_imp.h" 40 #include "cstring.h" 41 #include "umutex.h" 42 #include "ucln_in.h" 43 #include "ustrenum.h" 44 #include "putilimp.h" 45 #include "utracimp.h" 46 #include "cmemory.h" 47 #include "uenumimp.h" 48 #include "ulist.h" 49 50 U_NAMESPACE_USE 51 52 static void ucol_setReorderCodesFromParser(UCollator *coll, UColTokenParser *parser, UErrorCode *status); 53 54 // static UCA. There is only one. Collators don't use it. 55 // It is referenced only in ucol_initUCA and ucol_cleanup 56 static UCollator* _staticUCA = NULL; 57 // static pointer to udata memory. Inited in ucol_initUCA 58 // used for cleanup in ucol_cleanup 59 static UDataMemory* UCA_DATA_MEM = NULL; 60 61 U_CDECL_BEGIN 62 static UBool U_CALLCONV 63 ucol_res_cleanup(void) 64 { 65 if (UCA_DATA_MEM) { 66 udata_close(UCA_DATA_MEM); 67 UCA_DATA_MEM = NULL; 68 } 69 if (_staticUCA) { 70 ucol_close(_staticUCA); 71 _staticUCA = NULL; 72 } 73 return TRUE; 74 } 75 76 static UBool U_CALLCONV 77 isAcceptableUCA(void * /*context*/, 78 const char * /*type*/, const char * /*name*/, 79 const UDataInfo *pInfo){ 80 /* context, type & name are intentionally not used */ 81 if( pInfo->size>=20 && 82 pInfo->isBigEndian==U_IS_BIG_ENDIAN && 83 pInfo->charsetFamily==U_CHARSET_FAMILY && 84 pInfo->dataFormat[0]==UCA_DATA_FORMAT_0 && /* dataFormat="UCol" */ 85 pInfo->dataFormat[1]==UCA_DATA_FORMAT_1 && 86 pInfo->dataFormat[2]==UCA_DATA_FORMAT_2 && 87 pInfo->dataFormat[3]==UCA_DATA_FORMAT_3 && 88 pInfo->formatVersion[0]==UCA_FORMAT_VERSION_0 89 #if UCA_FORMAT_VERSION_1!=0 90 && pInfo->formatVersion[1]>=UCA_FORMAT_VERSION_1 91 #endif 92 //pInfo->formatVersion[1]==UCA_FORMAT_VERSION_1 && 93 //pInfo->formatVersion[2]==UCA_FORMAT_VERSION_2 && // Too harsh 94 //pInfo->formatVersion[3]==UCA_FORMAT_VERSION_3 && // Too harsh 95 ) { 96 UVersionInfo UCDVersion; 97 u_getUnicodeVersion(UCDVersion); 98 return (UBool)(pInfo->dataVersion[0]==UCDVersion[0] 99 && pInfo->dataVersion[1]==UCDVersion[1]); 100 //&& pInfo->dataVersion[2]==ucaDataInfo.dataVersion[2] 101 //&& pInfo->dataVersion[3]==ucaDataInfo.dataVersion[3]); 102 } else { 103 return FALSE; 104 } 105 } 106 U_CDECL_END 107 108 /* do not close UCA returned by ucol_initUCA! */ 109 UCollator * 110 ucol_initUCA(UErrorCode *status) { 111 if(U_FAILURE(*status)) { 112 return NULL; 113 } 114 UBool needsInit; 115 UMTX_CHECK(NULL, (_staticUCA == NULL), needsInit); 116 117 if(needsInit) { 118 UDataMemory *result = udata_openChoice(U_ICUDATA_COLL, UCA_DATA_TYPE, UCA_DATA_NAME, isAcceptableUCA, NULL, status); 119 120 if(U_SUCCESS(*status)){ 121 UCollator *newUCA = ucol_initCollator((const UCATableHeader *)udata_getMemory(result), NULL, NULL, status); 122 if(U_SUCCESS(*status)){ 123 // Initalize variables for implicit generation 124 uprv_uca_initImplicitConstants(status); 125 126 umtx_lock(NULL); 127 if(_staticUCA == NULL) { 128 UCA_DATA_MEM = result; 129 _staticUCA = newUCA; 130 newUCA = NULL; 131 result = NULL; 132 } 133 umtx_unlock(NULL); 134 135 ucln_i18n_registerCleanup(UCLN_I18N_UCOL_RES, ucol_res_cleanup); 136 if(newUCA != NULL) { 137 ucol_close(newUCA); 138 udata_close(result); 139 } 140 }else{ 141 ucol_close(newUCA); 142 udata_close(result); 143 } 144 } 145 else { 146 udata_close(result); 147 } 148 } 149 return _staticUCA; 150 } 151 152 U_CAPI void U_EXPORT2 153 ucol_forgetUCA(void) 154 { 155 _staticUCA = NULL; 156 UCA_DATA_MEM = NULL; 157 } 158 159 /****************************************************************************/ 160 /* Following are the open/close functions */ 161 /* */ 162 /****************************************************************************/ 163 static UCollator* 164 tryOpeningFromRules(UResourceBundle *collElem, UErrorCode *status) { 165 int32_t rulesLen = 0; 166 const UChar *rules = ures_getStringByKey(collElem, "Sequence", &rulesLen, status); 167 return ucol_openRules(rules, rulesLen, UCOL_DEFAULT, UCOL_DEFAULT, NULL, status); 168 } 169 170 171 // API in ucol_imp.h 172 173 U_CFUNC UCollator* 174 ucol_open_internal(const char *loc, 175 UErrorCode *status) 176 { 177 UErrorCode intStatus = U_ZERO_ERROR; 178 const UCollator* UCA = ucol_initUCA(status); 179 180 /* New version */ 181 if(U_FAILURE(*status)) return 0; 182 183 184 185 UCollator *result = NULL; 186 UResourceBundle *b = ures_open(U_ICUDATA_COLL, loc, status); 187 188 /* we try to find stuff from keyword */ 189 UResourceBundle *collations = ures_getByKey(b, "collations", NULL, status); 190 UResourceBundle *collElem = NULL; 191 char keyBuffer[256]; 192 // if there is a keyword, we pick it up and try to get elements 193 if(!uloc_getKeywordValue(loc, "collation", keyBuffer, 256, status) || 194 !uprv_strcmp(keyBuffer,"default")) { /* Treat 'zz@collation=default' as 'zz'. */ 195 // no keyword. we try to find the default setting, which will give us the keyword value 196 intStatus = U_ZERO_ERROR; 197 // finding default value does not affect collation fallback status 198 UResourceBundle *defaultColl = ures_getByKeyWithFallback(collations, "default", NULL, &intStatus); 199 if(U_SUCCESS(intStatus)) { 200 int32_t defaultKeyLen = 0; 201 const UChar *defaultKey = ures_getString(defaultColl, &defaultKeyLen, &intStatus); 202 u_UCharsToChars(defaultKey, keyBuffer, defaultKeyLen); 203 keyBuffer[defaultKeyLen] = 0; 204 } else { 205 *status = U_INTERNAL_PROGRAM_ERROR; 206 return NULL; 207 } 208 ures_close(defaultColl); 209 } 210 collElem = ures_getByKeyWithFallback(collations, keyBuffer, collations, status); 211 collations = NULL; // We just reused the collations object as collElem. 212 213 UResourceBundle *binary = NULL; 214 UResourceBundle *reorderRes = NULL; 215 216 if(*status == U_MISSING_RESOURCE_ERROR) { /* We didn't find the tailoring data, we fallback to the UCA */ 217 *status = U_USING_DEFAULT_WARNING; 218 result = ucol_initCollator(UCA->image, result, UCA, status); 219 if (U_FAILURE(*status)) { 220 goto clean; 221 } 222 // if we use UCA, real locale is root 223 ures_close(b); 224 b = ures_open(U_ICUDATA_COLL, "", status); 225 ures_close(collElem); 226 collElem = ures_open(U_ICUDATA_COLL, "", status); 227 if(U_FAILURE(*status)) { 228 goto clean; 229 } 230 result->hasRealData = FALSE; 231 } else if(U_SUCCESS(*status)) { 232 intStatus = U_ZERO_ERROR; 233 234 binary = ures_getByKey(collElem, "%%CollationBin", NULL, &intStatus); 235 236 if(intStatus == U_MISSING_RESOURCE_ERROR) { /* we didn't find the binary image, we should use the rules */ 237 binary = NULL; 238 result = tryOpeningFromRules(collElem, status); 239 if(U_FAILURE(*status)) { 240 goto clean; 241 } 242 } else if(U_SUCCESS(intStatus)) { /* otherwise, we'll pick a collation data that exists */ 243 int32_t len = 0; 244 const uint8_t *inData = ures_getBinary(binary, &len, status); 245 if(U_FAILURE(*status)) { 246 goto clean; 247 } 248 UCATableHeader *colData = (UCATableHeader *)inData; 249 if(uprv_memcmp(colData->UCAVersion, UCA->image->UCAVersion, sizeof(UVersionInfo)) != 0 || 250 uprv_memcmp(colData->UCDVersion, UCA->image->UCDVersion, sizeof(UVersionInfo)) != 0 || 251 colData->version[0] != UCOL_BUILDER_VERSION) 252 { 253 *status = U_DIFFERENT_UCA_VERSION; 254 result = tryOpeningFromRules(collElem, status); 255 } else { 256 if(U_FAILURE(*status)){ 257 goto clean; 258 } 259 if((uint32_t)len > (paddedsize(sizeof(UCATableHeader)) + paddedsize(sizeof(UColOptionSet)))) { 260 result = ucol_initCollator((const UCATableHeader *)inData, result, UCA, status); 261 if(U_FAILURE(*status)){ 262 goto clean; 263 } 264 result->hasRealData = TRUE; 265 } else { 266 result = ucol_initCollator(UCA->image, result, UCA, status); 267 ucol_setOptionsFromHeader(result, (UColOptionSet *)(inData+((const UCATableHeader *)inData)->options), status); 268 if(U_FAILURE(*status)){ 269 goto clean; 270 } 271 result->hasRealData = FALSE; 272 } 273 result->freeImageOnClose = FALSE; 274 275 reorderRes = ures_getByKey(collElem, "%%ReorderCodes", NULL, &intStatus); 276 if (U_SUCCESS(intStatus)) { 277 int32_t reorderCodesLen = 0; 278 const int32_t* reorderCodes = ures_getIntVector(reorderRes, &reorderCodesLen, status); 279 if (reorderCodesLen > 0) { 280 ucol_setReorderCodes(result, reorderCodes, reorderCodesLen, status); 281 // copy the reorder codes into the default reorder codes 282 result->defaultReorderCodesLength = result->reorderCodesLength; 283 result->defaultReorderCodes = (int32_t*) uprv_malloc(result->defaultReorderCodesLength * sizeof(int32_t)); 284 uprv_memcpy(result->defaultReorderCodes, result->reorderCodes, result->defaultReorderCodesLength * sizeof(int32_t)); 285 result->freeDefaultReorderCodesOnClose = TRUE; 286 } 287 if (U_FAILURE(*status)) { 288 goto clean; 289 } 290 } 291 } 292 293 } else { // !U_SUCCESS(binaryStatus) 294 if(U_SUCCESS(*status)) { 295 *status = intStatus; // propagate underlying error 296 } 297 goto clean; 298 } 299 intStatus = U_ZERO_ERROR; 300 result->rules = ures_getStringByKey(collElem, "Sequence", &result->rulesLength, &intStatus); 301 result->freeRulesOnClose = FALSE; 302 } else { /* There is another error, and we're just gonna clean up */ 303 goto clean; 304 } 305 306 intStatus = U_ZERO_ERROR; 307 result->ucaRules = ures_getStringByKey(b,"UCARules",NULL,&intStatus); 308 309 if(loc == NULL) { 310 loc = ures_getLocaleByType(b, ULOC_ACTUAL_LOCALE, status); 311 } 312 result->requestedLocale = uprv_strdup(loc); 313 /* test for NULL */ 314 if (result->requestedLocale == NULL) { 315 *status = U_MEMORY_ALLOCATION_ERROR; 316 goto clean; 317 } 318 loc = ures_getLocaleByType(collElem, ULOC_ACTUAL_LOCALE, status); 319 result->actualLocale = uprv_strdup(loc); 320 /* test for NULL */ 321 if (result->actualLocale == NULL) { 322 *status = U_MEMORY_ALLOCATION_ERROR; 323 goto clean; 324 } 325 loc = ures_getLocaleByType(b, ULOC_ACTUAL_LOCALE, status); 326 result->validLocale = uprv_strdup(loc); 327 /* test for NULL */ 328 if (result->validLocale == NULL) { 329 *status = U_MEMORY_ALLOCATION_ERROR; 330 goto clean; 331 } 332 333 ures_close(b); 334 ures_close(collElem); 335 ures_close(binary); 336 ures_close(reorderRes); 337 return result; 338 339 clean: 340 ures_close(b); 341 ures_close(collElem); 342 ures_close(binary); 343 ures_close(reorderRes); 344 ucol_close(result); 345 return NULL; 346 } 347 348 U_CAPI UCollator* 349 ucol_open(const char *loc, 350 UErrorCode *status) 351 { 352 U_NAMESPACE_USE 353 354 UTRACE_ENTRY_OC(UTRACE_UCOL_OPEN); 355 UTRACE_DATA1(UTRACE_INFO, "locale = \"%s\"", loc); 356 UCollator *result = NULL; 357 358 #if !UCONFIG_NO_SERVICE 359 result = Collator::createUCollator(loc, status); 360 if (result == NULL) 361 #endif 362 { 363 result = ucol_open_internal(loc, status); 364 } 365 UTRACE_EXIT_PTR_STATUS(result, *status); 366 return result; 367 } 368 369 370 UCollator* 371 ucol_openRulesForImport( const UChar *rules, 372 int32_t rulesLength, 373 UColAttributeValue normalizationMode, 374 UCollationStrength strength, 375 UParseError *parseError, 376 GetCollationRulesFunction importFunc, 377 void* context, 378 UErrorCode *status) 379 { 380 UColTokenParser src; 381 UColAttributeValue norm; 382 UParseError tErr; 383 384 if(status == NULL || U_FAILURE(*status)){ 385 return 0; 386 } 387 388 if(rules == NULL || rulesLength < -1) { 389 *status = U_ILLEGAL_ARGUMENT_ERROR; 390 return 0; 391 } 392 393 if(rulesLength == -1) { 394 rulesLength = u_strlen(rules); 395 } 396 397 if(parseError == NULL){ 398 parseError = &tErr; 399 } 400 401 switch(normalizationMode) { 402 case UCOL_OFF: 403 case UCOL_ON: 404 case UCOL_DEFAULT: 405 norm = normalizationMode; 406 break; 407 default: 408 *status = U_ILLEGAL_ARGUMENT_ERROR; 409 return 0; 410 } 411 412 UCollator *result = NULL; 413 UCATableHeader *table = NULL; 414 UCollator *UCA = ucol_initUCA(status); 415 416 if(U_FAILURE(*status)){ 417 return NULL; 418 } 419 420 ucol_tok_initTokenList(&src, rules, rulesLength, UCA, importFunc, context, status); 421 ucol_tok_assembleTokenList(&src,parseError, status); 422 423 if(U_FAILURE(*status)) { 424 /* if status is U_ILLEGAL_ARGUMENT_ERROR, src->current points at the offending option */ 425 /* if status is U_INVALID_FORMAT_ERROR, src->current points after the problematic part of the rules */ 426 /* so something might be done here... or on lower level */ 427 #ifdef UCOL_DEBUG 428 if(*status == U_ILLEGAL_ARGUMENT_ERROR) { 429 fprintf(stderr, "bad option starting at offset %i\n", (int)(src.current-src.source)); 430 } else { 431 fprintf(stderr, "invalid rule just before offset %i\n", (int)(src.current-src.source)); 432 } 433 #endif 434 goto cleanup; 435 } 436 437 if(src.resultLen > 0 || src.removeSet != NULL) { /* we have a set of rules, let's make something of it */ 438 /* also, if we wanted to remove some contractions, we should make a tailoring */ 439 table = ucol_assembleTailoringTable(&src, status); 440 if(U_SUCCESS(*status)) { 441 // builder version 442 table->version[0] = UCOL_BUILDER_VERSION; 443 // no tailoring information on this level 444 table->version[1] = table->version[2] = table->version[3] = 0; 445 // set UCD version 446 u_getUnicodeVersion(table->UCDVersion); 447 // set UCA version 448 uprv_memcpy(table->UCAVersion, UCA->image->UCAVersion, sizeof(UVersionInfo)); 449 result = ucol_initCollator(table, 0, UCA, status); 450 if (U_FAILURE(*status)) { 451 goto cleanup; 452 } 453 result->hasRealData = TRUE; 454 result->freeImageOnClose = TRUE; 455 } 456 } else { /* no rules, but no error either */ 457 // must be only options 458 // We will init the collator from UCA 459 result = ucol_initCollator(UCA->image, 0, UCA, status); 460 // Check for null result 461 if (U_FAILURE(*status)) { 462 goto cleanup; 463 } 464 // And set only the options 465 UColOptionSet *opts = (UColOptionSet *)uprv_malloc(sizeof(UColOptionSet)); 466 /* test for NULL */ 467 if (opts == NULL) { 468 *status = U_MEMORY_ALLOCATION_ERROR; 469 goto cleanup; 470 } 471 uprv_memcpy(opts, src.opts, sizeof(UColOptionSet)); 472 ucol_setOptionsFromHeader(result, opts, status); 473 ucol_setReorderCodesFromParser(result, &src, status); 474 result->freeOptionsOnClose = TRUE; 475 result->hasRealData = FALSE; 476 result->freeImageOnClose = FALSE; 477 } 478 479 // BEGIN android-added 480 // Apply the fixes for ICU ticket#9095 481 ucol_setReorderCodesFromParser(result, &src, status); 482 // END android-added 483 484 if(U_SUCCESS(*status)) { 485 UChar *newRules; 486 result->dataVersion[0] = UCOL_BUILDER_VERSION; 487 if(rulesLength > 0) { 488 newRules = (UChar *)uprv_malloc((rulesLength+1)*U_SIZEOF_UCHAR); 489 /* test for NULL */ 490 if (newRules == NULL) { 491 *status = U_MEMORY_ALLOCATION_ERROR; 492 goto cleanup; 493 } 494 uprv_memcpy(newRules, rules, rulesLength*U_SIZEOF_UCHAR); 495 newRules[rulesLength]=0; 496 result->rules = newRules; 497 result->rulesLength = rulesLength; 498 result->freeRulesOnClose = TRUE; 499 } 500 result->ucaRules = NULL; 501 result->actualLocale = NULL; 502 result->validLocale = NULL; 503 result->requestedLocale = NULL; 504 ucol_buildPermutationTable(result, status); 505 ucol_setAttribute(result, UCOL_STRENGTH, strength, status); 506 ucol_setAttribute(result, UCOL_NORMALIZATION_MODE, norm, status); 507 } else { 508 cleanup: 509 if(result != NULL) { 510 ucol_close(result); 511 } else { 512 if(table != NULL) { 513 uprv_free(table); 514 } 515 } 516 result = NULL; 517 } 518 519 ucol_tok_closeTokenList(&src); 520 521 return result; 522 } 523 524 U_CAPI UCollator* U_EXPORT2 525 ucol_openRules( const UChar *rules, 526 int32_t rulesLength, 527 UColAttributeValue normalizationMode, 528 UCollationStrength strength, 529 UParseError *parseError, 530 UErrorCode *status) 531 { 532 return ucol_openRulesForImport(rules, 533 rulesLength, 534 normalizationMode, 535 strength, 536 parseError, 537 ucol_tok_getRulesFromBundle, 538 NULL, 539 status); 540 } 541 542 U_CAPI int32_t U_EXPORT2 543 ucol_getRulesEx(const UCollator *coll, UColRuleOption delta, UChar *buffer, int32_t bufferLen) { 544 UErrorCode status = U_ZERO_ERROR; 545 int32_t len = 0; 546 int32_t UCAlen = 0; 547 const UChar* ucaRules = 0; 548 const UChar *rules = ucol_getRules(coll, &len); 549 if(delta == UCOL_FULL_RULES) { 550 /* take the UCA rules and append real rules at the end */ 551 /* UCA rules will be probably coming from the root RB */ 552 ucaRules = coll->ucaRules; 553 if (ucaRules) { 554 UCAlen = u_strlen(ucaRules); 555 } 556 /* 557 ucaRules = ures_getStringByKey(coll->rb,"UCARules",&UCAlen,&status); 558 UResourceBundle* cresb = ures_getByKeyWithFallback(coll->rb, "collations", NULL, &status); 559 UResourceBundle* uca = ures_getByKeyWithFallback(cresb, "UCA", NULL, &status); 560 ucaRules = ures_getStringByKey(uca,"Sequence",&UCAlen,&status); 561 ures_close(uca); 562 ures_close(cresb); 563 */ 564 } 565 if(U_FAILURE(status)) { 566 return 0; 567 } 568 if(buffer!=0 && bufferLen>0){ 569 *buffer=0; 570 if(UCAlen > 0) { 571 u_memcpy(buffer, ucaRules, uprv_min(UCAlen, bufferLen)); 572 } 573 if(len > 0 && bufferLen > UCAlen) { 574 u_memcpy(buffer+UCAlen, rules, uprv_min(len, bufferLen-UCAlen)); 575 } 576 } 577 return u_terminateUChars(buffer, bufferLen, len+UCAlen, &status); 578 } 579 580 static const UChar _NUL = 0; 581 582 U_CAPI const UChar* U_EXPORT2 583 ucol_getRules( const UCollator *coll, 584 int32_t *length) 585 { 586 if(coll->rules != NULL) { 587 *length = coll->rulesLength; 588 return coll->rules; 589 } 590 else { 591 *length = 0; 592 return &_NUL; 593 } 594 } 595 596 U_CAPI UBool U_EXPORT2 597 ucol_equals(const UCollator *source, const UCollator *target) { 598 UErrorCode status = U_ZERO_ERROR; 599 // if pointers are equal, collators are equal 600 if(source == target) { 601 return TRUE; 602 } 603 int32_t i = 0, j = 0; 604 // if any of attributes are different, collators are not equal 605 for(i = 0; i < UCOL_ATTRIBUTE_COUNT; i++) { 606 if(ucol_getAttribute(source, (UColAttribute)i, &status) != ucol_getAttribute(target, (UColAttribute)i, &status) || U_FAILURE(status)) { 607 return FALSE; 608 } 609 } 610 if (source->reorderCodesLength != target->reorderCodesLength){ 611 return FALSE; 612 } 613 for (i = 0; i < source->reorderCodesLength; i++) { 614 if(source->reorderCodes[i] != target->reorderCodes[i]) { 615 return FALSE; 616 } 617 } 618 619 int32_t sourceRulesLen = 0, targetRulesLen = 0; 620 const UChar *sourceRules = ucol_getRules(source, &sourceRulesLen); 621 const UChar *targetRules = ucol_getRules(target, &targetRulesLen); 622 623 if(sourceRulesLen == targetRulesLen && u_strncmp(sourceRules, targetRules, sourceRulesLen) == 0) { 624 // all the attributes are equal and the rules are equal - collators are equal 625 return(TRUE); 626 } 627 // hard part, need to construct tree from rules and see if they yield the same tailoring 628 UBool result = TRUE; 629 UParseError parseError; 630 UColTokenParser sourceParser, targetParser; 631 int32_t sourceListLen = 0, targetListLen = 0; 632 ucol_tok_initTokenList(&sourceParser, sourceRules, sourceRulesLen, source->UCA, ucol_tok_getRulesFromBundle, NULL, &status); 633 ucol_tok_initTokenList(&targetParser, targetRules, targetRulesLen, target->UCA, ucol_tok_getRulesFromBundle, NULL, &status); 634 sourceListLen = ucol_tok_assembleTokenList(&sourceParser, &parseError, &status); 635 targetListLen = ucol_tok_assembleTokenList(&targetParser, &parseError, &status); 636 637 if(sourceListLen != targetListLen) { 638 // different number of resets 639 result = FALSE; 640 } else { 641 UColToken *sourceReset = NULL, *targetReset = NULL; 642 UChar *sourceResetString = NULL, *targetResetString = NULL; 643 int32_t sourceStringLen = 0, targetStringLen = 0; 644 for(i = 0; i < sourceListLen; i++) { 645 sourceReset = sourceParser.lh[i].reset; 646 sourceResetString = sourceParser.source+(sourceReset->source & 0xFFFFFF); 647 sourceStringLen = sourceReset->source >> 24; 648 for(j = 0; j < sourceListLen; j++) { 649 targetReset = targetParser.lh[j].reset; 650 targetResetString = targetParser.source+(targetReset->source & 0xFFFFFF); 651 targetStringLen = targetReset->source >> 24; 652 if(sourceStringLen == targetStringLen && (u_strncmp(sourceResetString, targetResetString, sourceStringLen) == 0)) { 653 sourceReset = sourceParser.lh[i].first; 654 targetReset = targetParser.lh[j].first; 655 while(sourceReset != NULL && targetReset != NULL) { 656 sourceResetString = sourceParser.source+(sourceReset->source & 0xFFFFFF); 657 sourceStringLen = sourceReset->source >> 24; 658 targetResetString = targetParser.source+(targetReset->source & 0xFFFFFF); 659 targetStringLen = targetReset->source >> 24; 660 if(sourceStringLen != targetStringLen || (u_strncmp(sourceResetString, targetResetString, sourceStringLen) != 0)) { 661 result = FALSE; 662 goto returnResult; 663 } 664 // probably also need to check the expansions 665 if(sourceReset->expansion) { 666 if(!targetReset->expansion) { 667 result = FALSE; 668 goto returnResult; 669 } else { 670 // compare expansions 671 sourceResetString = sourceParser.source+(sourceReset->expansion& 0xFFFFFF); 672 sourceStringLen = sourceReset->expansion >> 24; 673 targetResetString = targetParser.source+(targetReset->expansion & 0xFFFFFF); 674 targetStringLen = targetReset->expansion >> 24; 675 if(sourceStringLen != targetStringLen || (u_strncmp(sourceResetString, targetResetString, sourceStringLen) != 0)) { 676 result = FALSE; 677 goto returnResult; 678 } 679 } 680 } else { 681 if(targetReset->expansion) { 682 result = FALSE; 683 goto returnResult; 684 } 685 } 686 sourceReset = sourceReset->next; 687 targetReset = targetReset->next; 688 } 689 if(sourceReset != targetReset) { // at least one is not NULL 690 // there are more tailored elements in one list 691 result = FALSE; 692 goto returnResult; 693 } 694 695 696 break; 697 } 698 } 699 // couldn't find the reset anchor, so the collators are not equal 700 if(j == sourceListLen) { 701 result = FALSE; 702 goto returnResult; 703 } 704 } 705 } 706 707 returnResult: 708 ucol_tok_closeTokenList(&sourceParser); 709 ucol_tok_closeTokenList(&targetParser); 710 return result; 711 712 } 713 714 U_CAPI int32_t U_EXPORT2 715 ucol_getDisplayName( const char *objLoc, 716 const char *dispLoc, 717 UChar *result, 718 int32_t resultLength, 719 UErrorCode *status) 720 { 721 U_NAMESPACE_USE 722 723 if(U_FAILURE(*status)) return -1; 724 UnicodeString dst; 725 if(!(result==NULL && resultLength==0)) { 726 // NULL destination for pure preflighting: empty dummy string 727 // otherwise, alias the destination buffer 728 dst.setTo(result, 0, resultLength); 729 } 730 Collator::getDisplayName(Locale(objLoc), Locale(dispLoc), dst); 731 return dst.extract(result, resultLength, *status); 732 } 733 734 U_CAPI const char* U_EXPORT2 735 ucol_getAvailable(int32_t index) 736 { 737 int32_t count = 0; 738 const Locale *loc = Collator::getAvailableLocales(count); 739 if (loc != NULL && index < count) { 740 return loc[index].getName(); 741 } 742 return NULL; 743 } 744 745 U_CAPI int32_t U_EXPORT2 746 ucol_countAvailable() 747 { 748 int32_t count = 0; 749 Collator::getAvailableLocales(count); 750 return count; 751 } 752 753 #if !UCONFIG_NO_SERVICE 754 U_CAPI UEnumeration* U_EXPORT2 755 ucol_openAvailableLocales(UErrorCode *status) { 756 U_NAMESPACE_USE 757 758 // This is a wrapper over Collator::getAvailableLocales() 759 if (U_FAILURE(*status)) { 760 return NULL; 761 } 762 StringEnumeration *s = Collator::getAvailableLocales(); 763 if (s == NULL) { 764 *status = U_MEMORY_ALLOCATION_ERROR; 765 return NULL; 766 } 767 return uenum_openFromStringEnumeration(s, status); 768 } 769 #endif 770 771 // Note: KEYWORDS[0] != RESOURCE_NAME - alan 772 773 static const char RESOURCE_NAME[] = "collations"; 774 775 static const char* const KEYWORDS[] = { "collation" }; 776 777 #define KEYWORD_COUNT (sizeof(KEYWORDS)/sizeof(KEYWORDS[0])) 778 779 U_CAPI UEnumeration* U_EXPORT2 780 ucol_getKeywords(UErrorCode *status) { 781 UEnumeration *result = NULL; 782 if (U_SUCCESS(*status)) { 783 return uenum_openCharStringsEnumeration(KEYWORDS, KEYWORD_COUNT, status); 784 } 785 return result; 786 } 787 788 U_CAPI UEnumeration* U_EXPORT2 789 ucol_getKeywordValues(const char *keyword, UErrorCode *status) { 790 if (U_FAILURE(*status)) { 791 return NULL; 792 } 793 // hard-coded to accept exactly one collation keyword 794 // modify if additional collation keyword is added later 795 if (keyword==NULL || uprv_strcmp(keyword, KEYWORDS[0])!=0) 796 { 797 *status = U_ILLEGAL_ARGUMENT_ERROR; 798 return NULL; 799 } 800 return ures_getKeywordValues(U_ICUDATA_COLL, RESOURCE_NAME, status); 801 } 802 803 static const UEnumeration defaultKeywordValues = { 804 NULL, 805 NULL, 806 ulist_close_keyword_values_iterator, 807 ulist_count_keyword_values, 808 uenum_unextDefault, 809 ulist_next_keyword_value, 810 ulist_reset_keyword_values_iterator 811 }; 812 813 #include <stdio.h> 814 815 U_CAPI UEnumeration* U_EXPORT2 816 ucol_getKeywordValuesForLocale(const char* /*key*/, const char* locale, 817 UBool /*commonlyUsed*/, UErrorCode* status) { 818 /* Get the locale base name. */ 819 char localeBuffer[ULOC_FULLNAME_CAPACITY] = ""; 820 uloc_getBaseName(locale, localeBuffer, sizeof(localeBuffer), status); 821 822 /* Create the 2 lists 823 * -values is the temp location for the keyword values 824 * -results hold the actual list used by the UEnumeration object 825 */ 826 UList *values = ulist_createEmptyList(status); 827 UList *results = ulist_createEmptyList(status); 828 UEnumeration *en = (UEnumeration *)uprv_malloc(sizeof(UEnumeration)); 829 if (U_FAILURE(*status) || en == NULL) { 830 if (en == NULL) { 831 *status = U_MEMORY_ALLOCATION_ERROR; 832 } else { 833 uprv_free(en); 834 } 835 ulist_deleteList(values); 836 ulist_deleteList(results); 837 return NULL; 838 } 839 840 memcpy(en, &defaultKeywordValues, sizeof(UEnumeration)); 841 en->context = results; 842 843 /* Open the resource bundle for collation with the given locale. */ 844 UResourceBundle bundle, collations, collres, defres; 845 ures_initStackObject(&bundle); 846 ures_initStackObject(&collations); 847 ures_initStackObject(&collres); 848 ures_initStackObject(&defres); 849 850 ures_openFillIn(&bundle, U_ICUDATA_COLL, localeBuffer, status); 851 852 while (U_SUCCESS(*status)) { 853 ures_getByKey(&bundle, RESOURCE_NAME, &collations, status); 854 ures_resetIterator(&collations); 855 while (U_SUCCESS(*status) && ures_hasNext(&collations)) { 856 ures_getNextResource(&collations, &collres, status); 857 const char *key = ures_getKey(&collres); 858 /* If the key is default, get the string and store it in results list only 859 * if results list is empty. 860 */ 861 if (uprv_strcmp(key, "default") == 0) { 862 if (ulist_getListSize(results) == 0) { 863 char *defcoll = (char *)uprv_malloc(sizeof(char) * ULOC_KEYWORDS_CAPACITY); 864 int32_t defcollLength = ULOC_KEYWORDS_CAPACITY; 865 866 ures_getNextResource(&collres, &defres, status); 867 #if U_CHARSET_FAMILY==U_ASCII_FAMILY 868 /* optimize - use the utf-8 string */ 869 ures_getUTF8String(&defres, defcoll, &defcollLength, TRUE, status); 870 #else 871 { 872 const UChar* defString = ures_getString(&defres, &defcollLength, status); 873 if(U_SUCCESS(*status)) { 874 if(defcollLength+1 > ULOC_KEYWORDS_CAPACITY) { 875 *status = U_BUFFER_OVERFLOW_ERROR; 876 } else { 877 u_UCharsToChars(defString, defcoll, defcollLength+1); 878 } 879 } 880 } 881 #endif 882 883 ulist_addItemBeginList(results, defcoll, TRUE, status); 884 } 885 } else { 886 ulist_addItemEndList(values, key, FALSE, status); 887 } 888 } 889 890 /* If the locale is "" this is root so exit. */ 891 if (uprv_strlen(localeBuffer) == 0) { 892 break; 893 } 894 /* Get the parent locale and open a new resource bundle. */ 895 uloc_getParent(localeBuffer, localeBuffer, sizeof(localeBuffer), status); 896 ures_openFillIn(&bundle, U_ICUDATA_COLL, localeBuffer, status); 897 } 898 899 ures_close(&defres); 900 ures_close(&collres); 901 ures_close(&collations); 902 ures_close(&bundle); 903 904 if (U_SUCCESS(*status)) { 905 char *value = NULL; 906 ulist_resetList(values); 907 while ((value = (char *)ulist_getNext(values)) != NULL) { 908 if (!ulist_containsString(results, value, (int32_t)uprv_strlen(value))) { 909 ulist_addItemEndList(results, value, FALSE, status); 910 if (U_FAILURE(*status)) { 911 break; 912 } 913 } 914 } 915 } 916 917 ulist_deleteList(values); 918 919 if (U_FAILURE(*status)){ 920 uenum_close(en); 921 en = NULL; 922 } else { 923 ulist_resetList(results); 924 } 925 926 return en; 927 } 928 929 U_CAPI int32_t U_EXPORT2 930 ucol_getFunctionalEquivalent(char* result, int32_t resultCapacity, 931 const char* keyword, const char* locale, 932 UBool* isAvailable, UErrorCode* status) 933 { 934 // N.B.: Resource name is "collations" but keyword is "collation" 935 return ures_getFunctionalEquivalent(result, resultCapacity, U_ICUDATA_COLL, 936 "collations", keyword, locale, 937 isAvailable, TRUE, status); 938 } 939 940 /* returns the locale name the collation data comes from */ 941 U_CAPI const char * U_EXPORT2 942 ucol_getLocale(const UCollator *coll, ULocDataLocaleType type, UErrorCode *status) { 943 return ucol_getLocaleByType(coll, type, status); 944 } 945 946 U_CAPI const char * U_EXPORT2 947 ucol_getLocaleByType(const UCollator *coll, ULocDataLocaleType type, UErrorCode *status) { 948 const char *result = NULL; 949 if(status == NULL || U_FAILURE(*status)) { 950 return NULL; 951 } 952 UTRACE_ENTRY(UTRACE_UCOL_GETLOCALE); 953 UTRACE_DATA1(UTRACE_INFO, "coll=%p", coll); 954 955 switch(type) { 956 case ULOC_ACTUAL_LOCALE: 957 result = coll->actualLocale; 958 break; 959 case ULOC_VALID_LOCALE: 960 result = coll->validLocale; 961 break; 962 case ULOC_REQUESTED_LOCALE: 963 result = coll->requestedLocale; 964 break; 965 default: 966 *status = U_ILLEGAL_ARGUMENT_ERROR; 967 } 968 UTRACE_DATA1(UTRACE_INFO, "result = %s", result); 969 UTRACE_EXIT_STATUS(*status); 970 return result; 971 } 972 973 U_CFUNC void U_EXPORT2 974 ucol_setReqValidLocales(UCollator *coll, char *requestedLocaleToAdopt, char *validLocaleToAdopt, char *actualLocaleToAdopt) 975 { 976 if (coll) { 977 if (coll->validLocale) { 978 uprv_free(coll->validLocale); 979 } 980 coll->validLocale = validLocaleToAdopt; 981 if (coll->requestedLocale) { // should always have 982 uprv_free(coll->requestedLocale); 983 } 984 coll->requestedLocale = requestedLocaleToAdopt; 985 if (coll->actualLocale) { 986 uprv_free(coll->actualLocale); 987 } 988 coll->actualLocale = actualLocaleToAdopt; 989 } 990 } 991 992 U_CAPI USet * U_EXPORT2 993 ucol_getTailoredSet(const UCollator *coll, UErrorCode *status) 994 { 995 U_NAMESPACE_USE 996 997 if(status == NULL || U_FAILURE(*status)) { 998 return NULL; 999 } 1000 if(coll == NULL || coll->UCA == NULL) { 1001 *status = U_ILLEGAL_ARGUMENT_ERROR; 1002 return NULL; 1003 } 1004 UParseError parseError; 1005 UColTokenParser src; 1006 int32_t rulesLen = 0; 1007 const UChar *rules = ucol_getRules(coll, &rulesLen); 1008 UBool startOfRules = TRUE; 1009 // we internally use the C++ class, for the following reasons: 1010 // 1. we need to utilize canonical iterator, which is a C++ only class 1011 // 2. canonical iterator returns UnicodeStrings - USet cannot take them 1012 // 3. USet is internally really UnicodeSet, C is just a wrapper 1013 UnicodeSet *tailored = new UnicodeSet(); 1014 UnicodeString pattern; 1015 UnicodeString empty; 1016 CanonicalIterator it(empty, *status); 1017 1018 1019 // The idea is to tokenize the rule set. For each non-reset token, 1020 // we add all the canonicaly equivalent FCD sequences 1021 ucol_tok_initTokenList(&src, rules, rulesLen, coll->UCA, ucol_tok_getRulesFromBundle, NULL, status); 1022 while (ucol_tok_parseNextToken(&src, startOfRules, &parseError, status) != NULL) { 1023 startOfRules = FALSE; 1024 if(src.parsedToken.strength != UCOL_TOK_RESET) { 1025 const UChar *stuff = src.source+(src.parsedToken.charsOffset); 1026 it.setSource(UnicodeString(stuff, src.parsedToken.charsLen), *status); 1027 pattern = it.next(); 1028 while(!pattern.isBogus()) { 1029 if(Normalizer::quickCheck(pattern, UNORM_FCD, *status) != UNORM_NO) { 1030 tailored->add(pattern); 1031 } 1032 pattern = it.next(); 1033 } 1034 } 1035 } 1036 ucol_tok_closeTokenList(&src); 1037 return (USet *)tailored; 1038 } 1039 1040 /* 1041 * Collation Reordering 1042 */ 1043 1044 void ucol_setReorderCodesFromParser(UCollator *coll, UColTokenParser *parser, UErrorCode *status) { 1045 if (U_FAILURE(*status)) { 1046 return; 1047 } 1048 1049 if (parser->reorderCodesLength == 0 || parser->reorderCodes == NULL) { 1050 return; 1051 } 1052 1053 coll->reorderCodesLength = 0; 1054 if (coll->reorderCodes != NULL && coll->freeReorderCodesOnClose == TRUE) { 1055 uprv_free(coll->reorderCodes); 1056 } 1057 1058 if (coll->defaultReorderCodes != NULL && coll->freeDefaultReorderCodesOnClose == TRUE) { 1059 uprv_free(coll->defaultReorderCodes); 1060 } 1061 coll->defaultReorderCodesLength = parser->reorderCodesLength; 1062 coll->defaultReorderCodes = (int32_t*) uprv_malloc(coll->defaultReorderCodesLength * sizeof(int32_t)); 1063 if (coll->defaultReorderCodes == NULL) { 1064 *status = U_MEMORY_ALLOCATION_ERROR; 1065 return; 1066 } 1067 uprv_memcpy(coll->defaultReorderCodes, parser->reorderCodes, coll->defaultReorderCodesLength * sizeof(int32_t)); 1068 coll->freeDefaultReorderCodesOnClose = TRUE; 1069 1070 coll->reorderCodesLength = parser->reorderCodesLength; 1071 coll->reorderCodes = (int32_t*) uprv_malloc(coll->reorderCodesLength * sizeof(int32_t)); 1072 if (coll->reorderCodes == NULL) { 1073 *status = U_MEMORY_ALLOCATION_ERROR; 1074 return; 1075 } 1076 uprv_memcpy(coll->reorderCodes, parser->reorderCodes, coll->reorderCodesLength * sizeof(int32_t)); 1077 coll->freeReorderCodesOnClose = TRUE; 1078 } 1079 1080 /* 1081 * Data is stored in the reorder code to lead byte table as: 1082 * index count - unsigned short (2 bytes) - number of index entries 1083 * data size - unsigned short (2 bytes) - number of unsigned short data elements 1084 * index[index count] - array of 2 unsigned shorts (4 bytes each entry) 1085 * - reorder code, offset 1086 * - index is sorted by reorder code 1087 * - if an offset has the high bit set then it is not an offset but a single data entry 1088 * once the high bit is stripped off 1089 * data[data size] - array of unsigned short (2 bytes each entry) 1090 * - the data is an usigned short count followed by count number 1091 * of lead bytes stored in an unsigned short 1092 */ 1093 U_CFUNC int U_EXPORT2 1094 ucol_getLeadBytesForReorderCode(const UCollator *uca, int reorderCode, uint16_t* returnLeadBytes, int returnCapacity) { 1095 uint16_t reorderCodeIndexLength = *((uint16_t*) ((uint8_t *)uca->image + uca->image->scriptToLeadByte)); 1096 uint16_t* reorderCodeIndex = (uint16_t*) ((uint8_t *)uca->image + uca->image->scriptToLeadByte + 2 *sizeof(uint16_t)); 1097 1098 // reorder code index is 2 uint16_t's - reorder code + offset 1099 for (int i = 0; i < reorderCodeIndexLength; i++) { 1100 if (reorderCode == reorderCodeIndex[i*2]) { 1101 uint16_t dataOffset = reorderCodeIndex[(i*2) + 1]; 1102 if ((dataOffset & 0x8000) == 0x8000) { 1103 // offset isn't offset but instead is a single data element 1104 if (returnCapacity >= 1) { 1105 returnLeadBytes[0] = dataOffset & ~0x8000; 1106 return 1; 1107 } 1108 return 0; 1109 } 1110 uint16_t* dataOffsetBase = (uint16_t*) ((uint8_t *)reorderCodeIndex + reorderCodeIndexLength * (2 * sizeof(uint16_t))); 1111 uint16_t leadByteCount = *(dataOffsetBase + dataOffset); 1112 leadByteCount = leadByteCount > returnCapacity ? returnCapacity : leadByteCount; 1113 uprv_memcpy(returnLeadBytes, dataOffsetBase + dataOffset + 1, leadByteCount * sizeof(uint16_t)); 1114 return leadByteCount; 1115 } 1116 } 1117 return 0; 1118 } 1119 1120 /* 1121 * Data is stored in the lead byte to reorder code table as: 1122 * index count - unsigned short (2 bytes) - number of index entries 1123 * data size - unsigned short (2 bytes) - number of unsigned short data elements 1124 * index[index count] - array of unsigned short (2 bytes each entry) 1125 * - index is sorted by lead byte 1126 * - if an index has the high bit set then it is not an index but a single data entry 1127 * once the high bit is stripped off 1128 * data[data size] - array of unsigned short (2 bytes each entry) 1129 * - the data is an usigned short count followed by count number of reorder codes 1130 */ 1131 U_CFUNC int U_EXPORT2 1132 ucol_getReorderCodesForLeadByte(const UCollator *uca, int leadByte, int16_t* returnReorderCodes, int returnCapacity) { 1133 uint16_t* leadByteTable = ((uint16_t*) ((uint8_t *)uca->image + uca->image->leadByteToScript)); 1134 uint16_t leadByteIndexLength = *leadByteTable; 1135 if (leadByte >= leadByteIndexLength) { 1136 return 0; 1137 } 1138 uint16_t leadByteIndex = *(leadByteTable + (2 + leadByte)); 1139 1140 if ((leadByteIndex & 0x8000) == 0x8000) { 1141 // offset isn't offset but instead is a single data element 1142 if (returnCapacity >= 1) { 1143 returnReorderCodes[0] = leadByteIndex & ~0x8000; 1144 return 1; 1145 } 1146 return 0; 1147 } 1148 //uint16_t* dataOffsetBase = leadByteTable + (2 + leadByteIndexLength); 1149 uint16_t* reorderCodeData = leadByteTable + (2 + leadByteIndexLength) + leadByteIndex; 1150 uint16_t reorderCodeCount = *reorderCodeData > returnCapacity ? returnCapacity : *reorderCodeData; 1151 uprv_memcpy(returnReorderCodes, reorderCodeData + 1, reorderCodeCount * sizeof(uint16_t)); 1152 return reorderCodeCount; 1153 } 1154 1155 // used to mark ignorable reorder code slots 1156 static const int32_t UCOL_REORDER_CODE_IGNORE = UCOL_REORDER_CODE_LIMIT + 1; 1157 1158 U_CFUNC void U_EXPORT2 1159 ucol_buildPermutationTable(UCollator *coll, UErrorCode *status) { 1160 uint16_t leadBytesSize = 256; 1161 uint16_t leadBytes[256]; 1162 int32_t internalReorderCodesLength = coll->reorderCodesLength + (UCOL_REORDER_CODE_LIMIT - UCOL_REORDER_CODE_FIRST); 1163 int32_t* internalReorderCodes; 1164 1165 // The lowest byte that hasn't been assigned a mapping 1166 int toBottom = 0x03; 1167 // The highest byte that hasn't been assigned a mapping - don't include the special or trailing 1168 int toTop = 0xe4; 1169 1170 // are we filling from the bottom? 1171 bool fromTheBottom = true; 1172 int32_t reorderCodesIndex = -1; 1173 1174 // lead bytes that have alread been assigned to the permutation table 1175 bool newLeadByteUsed[256]; 1176 // permutation table slots that have already been filled 1177 bool permutationSlotFilled[256]; 1178 1179 // nothing to do 1180 if(U_FAILURE(*status) || coll == NULL) { 1181 return; 1182 } 1183 1184 // clear the reordering 1185 if (coll->reorderCodes == NULL || coll->reorderCodesLength == 0 1186 || (coll->reorderCodesLength == 1 && coll->reorderCodes[0] == UCOL_REORDER_CODE_NONE)) { 1187 if (coll->leadBytePermutationTable != NULL) { 1188 if (coll->freeLeadBytePermutationTableOnClose) { 1189 uprv_free(coll->leadBytePermutationTable); 1190 } 1191 coll->leadBytePermutationTable = NULL; 1192 coll->reorderCodesLength = 0; 1193 } 1194 return; 1195 } 1196 1197 // set reordering to the default reordering 1198 if (coll->reorderCodes[0] == UCOL_REORDER_CODE_DEFAULT) { 1199 if (coll->reorderCodesLength != 1) { 1200 *status = U_ILLEGAL_ARGUMENT_ERROR; 1201 return; 1202 } 1203 if (coll->freeReorderCodesOnClose == TRUE) { 1204 uprv_free(coll->reorderCodes); 1205 } 1206 coll->reorderCodes = NULL; 1207 1208 if (coll->leadBytePermutationTable != NULL && coll->freeLeadBytePermutationTableOnClose == TRUE) { 1209 uprv_free(coll->leadBytePermutationTable); 1210 } 1211 coll->leadBytePermutationTable = NULL; 1212 1213 if (coll->defaultReorderCodesLength == 0) { 1214 return; 1215 } 1216 1217 coll->reorderCodes = (int32_t*)uprv_malloc(coll->defaultReorderCodesLength * sizeof(int32_t)); 1218 coll->freeReorderCodesOnClose = TRUE; 1219 if (coll->reorderCodes == NULL) { 1220 *status = U_MEMORY_ALLOCATION_ERROR; 1221 return; 1222 } 1223 coll->reorderCodesLength = coll->defaultReorderCodesLength; 1224 uprv_memcpy(coll->defaultReorderCodes, coll->reorderCodes, coll->reorderCodesLength * sizeof(int32_t)); 1225 } 1226 1227 if (coll->leadBytePermutationTable == NULL) { 1228 coll->leadBytePermutationTable = (uint8_t*)uprv_malloc(256*sizeof(uint8_t)); 1229 coll->freeLeadBytePermutationTableOnClose = TRUE; 1230 if (coll->leadBytePermutationTable == NULL) { 1231 *status = U_MEMORY_ALLOCATION_ERROR; 1232 return; 1233 } 1234 } 1235 1236 // prefill the reordering codes with the leading entries 1237 internalReorderCodes = (int32_t*)uprv_malloc(internalReorderCodesLength * sizeof(int32_t)); 1238 if (internalReorderCodes == NULL) { 1239 *status = U_MEMORY_ALLOCATION_ERROR; 1240 if (coll->leadBytePermutationTable != NULL && coll->freeLeadBytePermutationTableOnClose == TRUE) { 1241 uprv_free(coll->leadBytePermutationTable); 1242 } 1243 coll->leadBytePermutationTable = NULL; 1244 return; 1245 } 1246 1247 for (uint32_t codeIndex = 0; codeIndex < (UCOL_REORDER_CODE_LIMIT - UCOL_REORDER_CODE_FIRST); codeIndex++) { 1248 internalReorderCodes[codeIndex] = UCOL_REORDER_CODE_FIRST + codeIndex; 1249 } 1250 for (int32_t codeIndex = 0; codeIndex < coll->reorderCodesLength; codeIndex++) { 1251 uint32_t reorderCodesCode = coll->reorderCodes[codeIndex]; 1252 internalReorderCodes[codeIndex + (UCOL_REORDER_CODE_LIMIT - UCOL_REORDER_CODE_FIRST)] = reorderCodesCode; 1253 if (reorderCodesCode >= UCOL_REORDER_CODE_FIRST && reorderCodesCode < UCOL_REORDER_CODE_LIMIT) { 1254 internalReorderCodes[reorderCodesCode - UCOL_REORDER_CODE_FIRST] = UCOL_REORDER_CODE_IGNORE; 1255 } 1256 } 1257 1258 for (int i = 0; i < 256; i++) { 1259 if (i < toBottom || i > toTop) { 1260 permutationSlotFilled[i] = true; 1261 newLeadByteUsed[i] = true; 1262 coll->leadBytePermutationTable[i] = i; 1263 } else { 1264 permutationSlotFilled[i] = false; 1265 newLeadByteUsed[i] = false; 1266 coll->leadBytePermutationTable[i] = 0; 1267 } 1268 } 1269 1270 /* Start from the front of the list and place each script we encounter at the 1271 * earliest possible locatation in the permutation table. If we encounter 1272 * UNKNOWN, start processing from the back, and place each script in the last 1273 * possible location. At each step, we also need to make sure that any scripts 1274 * that need to not be moved are copied to their same location in the final table. 1275 */ 1276 for (int reorderCodesCount = 0; reorderCodesCount < internalReorderCodesLength; reorderCodesCount++) { 1277 reorderCodesIndex += fromTheBottom ? 1 : -1; 1278 int32_t next = internalReorderCodes[reorderCodesIndex]; 1279 if (next == UCOL_REORDER_CODE_IGNORE) { 1280 continue; 1281 } 1282 if (next == USCRIPT_UNKNOWN) { 1283 if (fromTheBottom == false) { 1284 // double turnaround 1285 *status = U_ILLEGAL_ARGUMENT_ERROR; 1286 if (coll->leadBytePermutationTable != NULL && coll->freeLeadBytePermutationTableOnClose == TRUE) { 1287 uprv_free(coll->leadBytePermutationTable); 1288 } 1289 coll->leadBytePermutationTable = NULL; 1290 coll->reorderCodesLength = 0; 1291 if (internalReorderCodes != NULL) { 1292 uprv_free(internalReorderCodes); 1293 } 1294 return; 1295 } 1296 fromTheBottom = false; 1297 reorderCodesIndex = internalReorderCodesLength; 1298 continue; 1299 } 1300 1301 uint16_t leadByteCount = ucol_getLeadBytesForReorderCode(coll->UCA, next, leadBytes, leadBytesSize); 1302 if (fromTheBottom) { 1303 for (int leadByteIndex = 0; leadByteIndex < leadByteCount; leadByteIndex++) { 1304 // don't place a lead byte twice in the permutation table 1305 if (permutationSlotFilled[leadBytes[leadByteIndex]]) { 1306 // lead byte already used 1307 *status = U_ILLEGAL_ARGUMENT_ERROR; 1308 if (coll->leadBytePermutationTable != NULL && coll->freeLeadBytePermutationTableOnClose == TRUE) { 1309 uprv_free(coll->leadBytePermutationTable); 1310 } 1311 coll->leadBytePermutationTable = NULL; 1312 coll->reorderCodesLength = 0; 1313 if (internalReorderCodes != NULL) { 1314 uprv_free(internalReorderCodes); 1315 } 1316 return; 1317 } 1318 1319 coll->leadBytePermutationTable[leadBytes[leadByteIndex]] = toBottom; 1320 newLeadByteUsed[toBottom] = true; 1321 permutationSlotFilled[leadBytes[leadByteIndex]] = true; 1322 toBottom++; 1323 } 1324 } else { 1325 for (int leadByteIndex = leadByteCount - 1; leadByteIndex >= 0; leadByteIndex--) { 1326 // don't place a lead byte twice in the permutation table 1327 if (permutationSlotFilled[leadBytes[leadByteIndex]]) { 1328 // lead byte already used 1329 *status = U_ILLEGAL_ARGUMENT_ERROR; 1330 if (coll->leadBytePermutationTable != NULL && coll->freeLeadBytePermutationTableOnClose == TRUE) { 1331 uprv_free(coll->leadBytePermutationTable); 1332 } 1333 coll->leadBytePermutationTable = NULL; 1334 coll->reorderCodesLength = 0; 1335 if (internalReorderCodes != NULL) { 1336 uprv_free(internalReorderCodes); 1337 } 1338 return; 1339 } 1340 1341 coll->leadBytePermutationTable[leadBytes[leadByteIndex]] = toTop; 1342 newLeadByteUsed[toTop] = true; 1343 permutationSlotFilled[leadBytes[leadByteIndex]] = true; 1344 toTop--; 1345 } 1346 } 1347 } 1348 1349 #ifdef REORDER_DEBUG 1350 fprintf(stdout, "\n@@@@ Partial Script Reordering Table\n"); 1351 for (int i = 0; i < 256; i++) { 1352 fprintf(stdout, "\t%02x = %02x\n", i, coll->leadBytePermutationTable[i]); 1353 } 1354 fprintf(stdout, "\n@@@@ Lead Byte Used Table\n"); 1355 for (int i = 0; i < 256; i++) { 1356 fprintf(stdout, "\t%02x = %02x\n", i, newLeadByteUsed[i]); 1357 } 1358 fprintf(stdout, "\n@@@@ Permutation Slot Filled Table\n"); 1359 for (int i = 0; i < 256; i++) { 1360 fprintf(stdout, "\t%02x = %02x\n", i, permutationSlotFilled[i]); 1361 } 1362 #endif 1363 1364 /* Copy everything that's left over */ 1365 int reorderCode = 0; 1366 for (int i = 0; i < 256; i++) { 1367 if (!permutationSlotFilled[i]) { 1368 while (reorderCode < 256 && newLeadByteUsed[reorderCode]) { 1369 reorderCode++; 1370 } 1371 coll->leadBytePermutationTable[i] = reorderCode; 1372 permutationSlotFilled[i] = true; 1373 newLeadByteUsed[reorderCode] = true; 1374 } 1375 } 1376 1377 #ifdef REORDER_DEBUG 1378 fprintf(stdout, "\n@@@@ Script Reordering Table\n"); 1379 for (int i = 0; i < 256; i++) { 1380 fprintf(stdout, "\t%02x = %02x\n", i, coll->leadBytePermutationTable[i]); 1381 } 1382 #endif 1383 1384 if (internalReorderCodes != NULL) { 1385 uprv_free(internalReorderCodes); 1386 } 1387 1388 // force a regen of the latin one table since it is affected by the script reordering 1389 coll->latinOneRegenTable = TRUE; 1390 ucol_updateInternalState(coll, status); 1391 } 1392 1393 #endif /* #if !UCONFIG_NO_COLLATION */ 1394