1 /* 2 ********************************************************************** 3 * Copyright (C) 2005-2014, International Business Machines 4 * Corporation and others. All Rights Reserved. 5 ********************************************************************** 6 */ 7 8 #include "unicode/utypes.h" 9 10 #if !UCONFIG_NO_COLLATION 11 12 #include "cmemory.h" 13 #include "cstring.h" 14 #include "usrchimp.h" 15 16 #include "unicode/coll.h" 17 #include "unicode/tblcoll.h" 18 #include "unicode/usearch.h" 19 #include "unicode/uset.h" 20 #include "unicode/ustring.h" 21 22 #include "unicode/coleitr.h" 23 #include "unicode/regex.h" // TODO: make conditional on regexp being built. 24 25 #include "colldata.h" 26 #include "ssearch.h" 27 #include "xmlparser.h" 28 29 #include <stdio.h> // for sprintf 30 31 char testId[100]; 32 33 #define TEST_ASSERT(x) {if (!(x)) { \ 34 errln("Failure in file %s, line %d, test ID = \"%s\"", __FILE__, __LINE__, testId);}} 35 36 #define TEST_ASSERT_M(x, m) {if (!(x)) { \ 37 dataerrln("Failure in file %s, line %d. \"%s\"", __FILE__, __LINE__, m);return;}} 38 39 #define TEST_ASSERT_SUCCESS(errcode) {if (U_FAILURE(errcode)) { \ 40 dataerrln("Failure in file %s, line %d, test ID \"%s\", status = \"%s\"", \ 41 __FILE__, __LINE__, testId, u_errorName(errcode));}} 42 43 #define ARRAY_SIZE(array) (sizeof array / sizeof array[0]) 44 #define NEW_ARRAY(type, count) (type *) uprv_malloc((count) * sizeof(type)) 45 #define DELETE_ARRAY(array) uprv_free((void *) (array)) 46 47 //--------------------------------------------------------------------------- 48 // 49 // Test class boilerplate 50 // 51 //--------------------------------------------------------------------------- 52 SSearchTest::SSearchTest() 53 { 54 } 55 56 SSearchTest::~SSearchTest() 57 { 58 } 59 60 void SSearchTest::runIndexedTest( int32_t index, UBool exec, const char* &name, char *params ) 61 { 62 if (exec) logln("TestSuite SSearchTest: "); 63 switch (index) { 64 #if !UCONFIG_NO_BREAK_ITERATION 65 case 0: name = "searchTest"; 66 if (exec) searchTest(); 67 break; 68 69 case 1: name = "offsetTest"; 70 if (exec) offsetTest(); 71 break; 72 73 case 2: name = "monkeyTest"; 74 if (exec) monkeyTest(params); 75 break; 76 77 case 3: name = "sharpSTest"; 78 if (exec) sharpSTest(); 79 break; 80 81 case 4: name = "goodSuffixTest"; 82 if (exec) goodSuffixTest(); 83 break; 84 85 case 5: name = "searchTime"; 86 if (exec) searchTime(); 87 break; 88 #endif 89 default: name = ""; 90 break; //needed to end loop 91 } 92 } 93 94 95 #if !UCONFIG_NO_BREAK_ITERATION 96 97 #define PATH_BUFFER_SIZE 2048 98 const char *SSearchTest::getPath(char buffer[2048], const char *filename) { 99 UErrorCode status = U_ZERO_ERROR; 100 const char *testDataDirectory = IntlTest::getSourceTestData(status); 101 102 if (U_FAILURE(status) || strlen(testDataDirectory) + strlen(filename) + 1 >= PATH_BUFFER_SIZE) { 103 errln("ERROR: getPath() failed - %s", u_errorName(status)); 104 return NULL; 105 } 106 107 strcpy(buffer, testDataDirectory); 108 strcat(buffer, filename); 109 return buffer; 110 } 111 112 113 void SSearchTest::searchTest() 114 { 115 #if !UCONFIG_NO_REGULAR_EXPRESSIONS && !UCONFIG_NO_FILE_IO 116 UErrorCode status = U_ZERO_ERROR; 117 char path[PATH_BUFFER_SIZE]; 118 const char *testFilePath = getPath(path, "ssearch.xml"); 119 120 if (testFilePath == NULL) { 121 return; /* Couldn't get path: error message already output. */ 122 } 123 124 LocalPointer<UXMLParser> parser(UXMLParser::createParser(status)); 125 TEST_ASSERT_SUCCESS(status); 126 LocalPointer<UXMLElement> root(parser->parseFile(testFilePath, status)); 127 TEST_ASSERT_SUCCESS(status); 128 if (U_FAILURE(status)) { 129 return; 130 } 131 132 const UnicodeString *debugTestCase = root->getAttribute("debug"); 133 if (debugTestCase != NULL) { 134 // setenv("USEARCH_DEBUG", "1", 1); 135 } 136 137 138 const UXMLElement *testCase; 139 int32_t tc = 0; 140 141 while((testCase = root->nextChildElement(tc)) != NULL) { 142 143 if (testCase->getTagName().compare("test-case") != 0) { 144 errln("ssearch, unrecognized XML Element in test file"); 145 continue; 146 } 147 const UnicodeString *id = testCase->getAttribute("id"); 148 *testId = 0; 149 if (id != NULL) { 150 id->extract(0, id->length(), testId, sizeof(testId), US_INV); 151 } 152 153 // If debugging test case has been specified and this is not it, skip to next. 154 if (id!=NULL && debugTestCase!=NULL && *id != *debugTestCase) { 155 continue; 156 } 157 // 158 // Get the requested collation strength. 159 // Default is tertiary if the XML attribute is missing from the test case. 160 // 161 const UnicodeString *strength = testCase->getAttribute("strength"); 162 UColAttributeValue collatorStrength = UCOL_PRIMARY; 163 if (strength==NULL) { collatorStrength = UCOL_TERTIARY;} 164 else if (*strength=="PRIMARY") { collatorStrength = UCOL_PRIMARY;} 165 else if (*strength=="SECONDARY") { collatorStrength = UCOL_SECONDARY;} 166 else if (*strength=="TERTIARY") { collatorStrength = UCOL_TERTIARY;} 167 else if (*strength=="QUATERNARY") { collatorStrength = UCOL_QUATERNARY;} 168 else if (*strength=="IDENTICAL") { collatorStrength = UCOL_IDENTICAL;} 169 else { 170 // Bogus value supplied for strength. Shouldn't happen, even from 171 // typos, if the XML source has been validated. 172 // This assert is a little deceiving in that strength can be 173 // any of the allowed values, not just TERTIARY, but it will 174 // do the job of getting the error output. 175 TEST_ASSERT(*strength=="TERTIARY") 176 } 177 178 // 179 // Get the collator normalization flag. Default is UCOL_OFF. 180 // 181 UColAttributeValue normalize = UCOL_OFF; 182 const UnicodeString *norm = testCase->getAttribute("norm"); 183 TEST_ASSERT (norm==NULL || *norm=="ON" || *norm=="OFF"); 184 if (norm!=NULL && *norm=="ON") { 185 normalize = UCOL_ON; 186 } 187 188 // 189 // Get the alternate_handling flag. Default is UCOL_NON_IGNORABLE. 190 // 191 UColAttributeValue alternateHandling = UCOL_NON_IGNORABLE; 192 const UnicodeString *alt = testCase->getAttribute("alternate_handling"); 193 TEST_ASSERT (alt == NULL || *alt == "SHIFTED" || *alt == "NON_IGNORABLE"); 194 if (alt != NULL && *alt == "SHIFTED") { 195 alternateHandling = UCOL_SHIFTED; 196 } 197 198 const UnicodeString defLocale("en"); 199 char clocale[100]; 200 const UnicodeString *locale = testCase->getAttribute("locale"); 201 if (locale == NULL || locale->length()==0) { 202 locale = &defLocale; 203 }; 204 locale->extract(0, locale->length(), clocale, sizeof(clocale), NULL); 205 206 207 UnicodeString text; 208 UnicodeString target; 209 UnicodeString pattern; 210 int32_t expectedMatchStart = -1; 211 int32_t expectedMatchLimit = -1; 212 const UXMLElement *n; 213 int32_t nodeCount = 0; 214 215 n = testCase->getChildElement("pattern"); 216 TEST_ASSERT(n != NULL); 217 if (n==NULL) { 218 continue; 219 } 220 text = n->getText(FALSE); 221 text = text.unescape(); 222 pattern.append(text); 223 nodeCount++; 224 225 n = testCase->getChildElement("pre"); 226 if (n!=NULL) { 227 text = n->getText(FALSE); 228 text = text.unescape(); 229 target.append(text); 230 nodeCount++; 231 } 232 233 n = testCase->getChildElement("m"); 234 if (n!=NULL) { 235 expectedMatchStart = target.length(); 236 text = n->getText(FALSE); 237 text = text.unescape(); 238 target.append(text); 239 expectedMatchLimit = target.length(); 240 nodeCount++; 241 } 242 243 n = testCase->getChildElement("post"); 244 if (n!=NULL) { 245 text = n->getText(FALSE); 246 text = text.unescape(); 247 target.append(text); 248 nodeCount++; 249 } 250 251 // Check that there weren't extra things in the XML 252 TEST_ASSERT(nodeCount == testCase->countChildren()); 253 254 // Open a collator and StringSearch based on the parameters 255 // obtained from the XML. 256 // 257 status = U_ZERO_ERROR; 258 LocalUCollatorPointer collator(ucol_open(clocale, &status)); 259 ucol_setStrength(collator.getAlias(), collatorStrength); 260 ucol_setAttribute(collator.getAlias(), UCOL_NORMALIZATION_MODE, normalize, &status); 261 ucol_setAttribute(collator.getAlias(), UCOL_ALTERNATE_HANDLING, alternateHandling, &status); 262 LocalUStringSearchPointer uss(usearch_openFromCollator(pattern.getBuffer(), pattern.length(), 263 target.getBuffer(), target.length(), 264 collator.getAlias(), 265 NULL, // the break iterator 266 &status)); 267 268 TEST_ASSERT_SUCCESS(status); 269 if (U_FAILURE(status)) { 270 continue; 271 } 272 273 int32_t foundStart = 0; 274 int32_t foundLimit = 0; 275 UBool foundMatch; 276 277 // 278 // Do the search, check the match result against the expected results. 279 // 280 foundMatch= usearch_search(uss.getAlias(), 0, &foundStart, &foundLimit, &status); 281 TEST_ASSERT_SUCCESS(status); 282 if ((foundMatch && expectedMatchStart<0) || 283 (foundStart != expectedMatchStart) || 284 (foundLimit != expectedMatchLimit)) { 285 TEST_ASSERT(FALSE); // ouput generic error position 286 infoln("Found, expected match start = %d, %d \n" 287 "Found, expected match limit = %d, %d", 288 foundStart, expectedMatchStart, foundLimit, expectedMatchLimit); 289 } 290 291 // In case there are other matches... 292 // (should we only do this if the test case passed?) 293 while (foundMatch) { 294 expectedMatchStart = foundStart; 295 expectedMatchLimit = foundLimit; 296 297 foundMatch = usearch_search(uss.getAlias(), foundLimit, &foundStart, &foundLimit, &status); 298 } 299 300 uss.adoptInstead(usearch_openFromCollator(pattern.getBuffer(), pattern.length(), 301 target.getBuffer(), target.length(), 302 collator.getAlias(), 303 NULL, 304 &status)); 305 306 // 307 // Do the backwards search, check the match result against the expected results. 308 // 309 foundMatch= usearch_searchBackwards(uss.getAlias(), target.length(), &foundStart, &foundLimit, &status); 310 TEST_ASSERT_SUCCESS(status); 311 if ((foundMatch && expectedMatchStart<0) || 312 (foundStart != expectedMatchStart) || 313 (foundLimit != expectedMatchLimit)) { 314 TEST_ASSERT(FALSE); // ouput generic error position 315 infoln("Found, expected backwards match start = %d, %d \n" 316 "Found, expected backwards match limit = %d, %d", 317 foundStart, expectedMatchStart, foundLimit, expectedMatchLimit); 318 } 319 } 320 #endif 321 } 322 323 struct Order 324 { 325 int32_t order; 326 int32_t lowOffset; 327 int32_t highOffset; 328 }; 329 330 class OrderList 331 { 332 public: 333 OrderList(); 334 OrderList(UCollator *coll, const UnicodeString &string, int32_t stringOffset = 0); 335 ~OrderList(); 336 337 int32_t size(void) const; 338 void add(int32_t order, int32_t low, int32_t high); 339 const Order *get(int32_t index) const; 340 int32_t getLowOffset(int32_t index) const; 341 int32_t getHighOffset(int32_t index) const; 342 int32_t getOrder(int32_t index) const; 343 void reverse(void); 344 UBool compare(const OrderList &other) const; 345 UBool matchesAt(int32_t offset, const OrderList &other) const; 346 347 private: 348 Order *list; 349 int32_t listMax; 350 int32_t listSize; 351 }; 352 353 OrderList::OrderList() 354 : list(NULL), listMax(16), listSize(0) 355 { 356 list = new Order[listMax]; 357 } 358 359 OrderList::OrderList(UCollator *coll, const UnicodeString &string, int32_t stringOffset) 360 : list(NULL), listMax(16), listSize(0) 361 { 362 UErrorCode status = U_ZERO_ERROR; 363 UCollationElements *elems = ucol_openElements(coll, string.getBuffer(), string.length(), &status); 364 uint32_t strengthMask = 0; 365 int32_t order, low, high; 366 367 switch (ucol_getStrength(coll)) 368 { 369 default: 370 strengthMask |= UCOL_TERTIARYORDERMASK; 371 /* fall through */ 372 373 case UCOL_SECONDARY: 374 strengthMask |= UCOL_SECONDARYORDERMASK; 375 /* fall through */ 376 377 case UCOL_PRIMARY: 378 strengthMask |= UCOL_PRIMARYORDERMASK; 379 } 380 381 list = new Order[listMax]; 382 383 ucol_setOffset(elems, stringOffset, &status); 384 385 do { 386 low = ucol_getOffset(elems); 387 order = ucol_next(elems, &status); 388 high = ucol_getOffset(elems); 389 390 if (order != UCOL_NULLORDER) { 391 order &= strengthMask; 392 } 393 394 if (order != UCOL_IGNORABLE) { 395 add(order, low, high); 396 } 397 } while (order != UCOL_NULLORDER); 398 399 ucol_closeElements(elems); 400 } 401 402 OrderList::~OrderList() 403 { 404 delete[] list; 405 } 406 407 void OrderList::add(int32_t order, int32_t low, int32_t high) 408 { 409 if (listSize >= listMax) { 410 listMax *= 2; 411 412 Order *newList = new Order[listMax]; 413 414 uprv_memcpy(newList, list, listSize * sizeof(Order)); 415 delete[] list; 416 list = newList; 417 } 418 419 list[listSize].order = order; 420 list[listSize].lowOffset = low; 421 list[listSize].highOffset = high; 422 423 listSize += 1; 424 } 425 426 const Order *OrderList::get(int32_t index) const 427 { 428 if (index >= listSize) { 429 return NULL; 430 } 431 432 return &list[index]; 433 } 434 435 int32_t OrderList::getLowOffset(int32_t index) const 436 { 437 const Order *order = get(index); 438 439 if (order != NULL) { 440 return order->lowOffset; 441 } 442 443 return -1; 444 } 445 446 int32_t OrderList::getHighOffset(int32_t index) const 447 { 448 const Order *order = get(index); 449 450 if (order != NULL) { 451 return order->highOffset; 452 } 453 454 return -1; 455 } 456 457 int32_t OrderList::getOrder(int32_t index) const 458 { 459 const Order *order = get(index); 460 461 if (order != NULL) { 462 return order->order; 463 } 464 465 return UCOL_NULLORDER; 466 } 467 468 int32_t OrderList::size() const 469 { 470 return listSize; 471 } 472 473 void OrderList::reverse() 474 { 475 for(int32_t f = 0, b = listSize - 1; f < b; f += 1, b -= 1) { 476 Order swap = list[b]; 477 478 list[b] = list[f]; 479 list[f] = swap; 480 } 481 } 482 483 UBool OrderList::compare(const OrderList &other) const 484 { 485 if (listSize != other.listSize) { 486 return FALSE; 487 } 488 489 for(int32_t i = 0; i < listSize; i += 1) { 490 if (list[i].order != other.list[i].order || 491 list[i].lowOffset != other.list[i].lowOffset || 492 list[i].highOffset != other.list[i].highOffset) { 493 return FALSE; 494 } 495 } 496 497 return TRUE; 498 } 499 500 UBool OrderList::matchesAt(int32_t offset, const OrderList &other) const 501 { 502 // NOTE: sizes include the NULLORDER, which we don't want to compare. 503 int32_t otherSize = other.size() - 1; 504 505 if (listSize - 1 - offset < otherSize) { 506 return FALSE; 507 } 508 509 for (int32_t i = offset, j = 0; j < otherSize; i += 1, j += 1) { 510 if (getOrder(i) != other.getOrder(j)) { 511 return FALSE; 512 } 513 } 514 515 return TRUE; 516 } 517 518 static char *printOffsets(char *buffer, OrderList &list) 519 { 520 int32_t size = list.size(); 521 char *s = buffer; 522 523 for(int32_t i = 0; i < size; i += 1) { 524 const Order *order = list.get(i); 525 526 if (i != 0) { 527 s += sprintf(s, ", "); 528 } 529 530 s += sprintf(s, "(%d, %d)", order->lowOffset, order->highOffset); 531 } 532 533 return buffer; 534 } 535 536 static char *printOrders(char *buffer, OrderList &list) 537 { 538 int32_t size = list.size(); 539 char *s = buffer; 540 541 for(int32_t i = 0; i < size; i += 1) { 542 const Order *order = list.get(i); 543 544 if (i != 0) { 545 s += sprintf(s, ", "); 546 } 547 548 s += sprintf(s, "%8.8X", order->order); 549 } 550 551 return buffer; 552 } 553 554 void SSearchTest::offsetTest() 555 { 556 const char *test[] = { 557 // The sequence \u0FB3\u0F71\u0F71\u0F80 contains a discontiguous 558 // contraction (\u0FB3\u0F71\u0F80) logically followed by \u0F71. 559 "\\u1E33\\u0FB3\\u0F71\\u0F71\\u0F80\\uD835\\uDF6C\\u01B0", 560 561 "\\ua191\\u16ef\\u2036\\u017a", 562 563 #if 0 564 // This results in a complex interaction between contraction, 565 // expansion and normalization that confuses the backwards offset fixups. 566 "\\u0F7F\\u0F80\\u0F81\\u0F82\\u0F83\\u0F84\\u0F85", 567 #endif 568 569 "\\u0F80\\u0F81\\u0F82\\u0F83\\u0F84\\u0F85", 570 "\\u07E9\\u07EA\\u07F1\\u07F2\\u07F3", 571 572 "\\u02FE\\u02FF" 573 "\\u0300\\u0301\\u0302\\u0303\\u0304\\u0305\\u0306\\u0307\\u0308\\u0309\\u030A\\u030B\\u030C\\u030D\\u030E\\u030F" 574 "\\u0310\\u0311\\u0312\\u0313\\u0314\\u0315\\u0316\\u0317\\u0318\\u0319\\u031A\\u031B\\u031C\\u031D\\u031E\\u031F" 575 "\\u0320\\u0321\\u0322\\u0323\\u0324\\u0325\\u0326\\u0327\\u0328\\u0329\\u032A\\u032B\\u032C\\u032D\\u032E\\u032F" 576 "\\u0330\\u0331\\u0332\\u0333\\u0334\\u0335\\u0336\\u0337\\u0338\\u0339\\u033A\\u033B\\u033C\\u033D\\u033E\\u033F" 577 "\\u0340\\u0341\\u0342\\u0343\\u0344\\u0345\\u0346\\u0347\\u0348\\u0349\\u034A\\u034B\\u034C\\u034D\\u034E", // currently not working, see #8081 578 579 "\\u02FE\\u02FF\\u0300\\u0301\\u0302\\u0303\\u0316\\u0317\\u0318", // currently not working, see #8081 580 "a\\u02FF\\u0301\\u0316", // currently not working, see #8081 581 "a\\u02FF\\u0316\\u0301", 582 "a\\u0430\\u0301\\u0316", 583 "a\\u0430\\u0316\\u0301", 584 "abc\\u0E41\\u0301\\u0316", 585 "abc\\u0E41\\u0316\\u0301", 586 "\\u0E41\\u0301\\u0316", 587 "\\u0E41\\u0316\\u0301", 588 "a\\u0301\\u0316", 589 "a\\u0316\\u0301", 590 "\\uAC52\\uAC53", 591 "\\u34CA\\u34CB", 592 "\\u11ED\\u11EE", 593 "\\u30C3\\u30D0", 594 "p\\u00E9ch\\u00E9", 595 "a\\u0301\\u0325", 596 "a\\u0300\\u0325", 597 "a\\u0325\\u0300", 598 "A\\u0323\\u0300B", 599 "A\\u0300\\u0323B", 600 "A\\u0301\\u0323B", 601 "A\\u0302\\u0301\\u0323B", 602 "abc", 603 "ab\\u0300c", 604 "ab\\u0300\\u0323c", 605 " \\uD800\\uDC00\\uDC00", 606 "a\\uD800\\uDC00\\uDC00", 607 "A\\u0301\\u0301", 608 "A\\u0301\\u0323", 609 "A\\u0301\\u0323B", 610 "B\\u0301\\u0323C", 611 "A\\u0300\\u0323B", 612 "\\u0301A\\u0301\\u0301", 613 "abcd\\r\\u0301", 614 "p\\u00EAche", 615 "pe\\u0302che", 616 }; 617 618 int32_t testCount = ARRAY_SIZE(test); 619 UErrorCode status = U_ZERO_ERROR; 620 RuleBasedCollator *col = (RuleBasedCollator *) Collator::createInstance(Locale::getEnglish(), status); 621 if (U_FAILURE(status)) { 622 errcheckln(status, "Failed to create collator in offsetTest! - %s", u_errorName(status)); 623 return; 624 } 625 char buffer[4096]; // A bit of a hack... just happens to be long enough for all the test cases... 626 // We could allocate one that's the right size by (CE_count * 10) + 2 627 // 10 chars is enough room for 8 hex digits plus ", ". 2 extra chars for "[" and "]" 628 629 col->setAttribute(UCOL_NORMALIZATION_MODE, UCOL_ON, status); 630 631 for(int32_t i = 0; i < testCount; i += 1) { 632 UnicodeString ts = CharsToUnicodeString(test[i]); 633 CollationElementIterator *iter = col->createCollationElementIterator(ts); 634 OrderList forwardList; 635 OrderList backwardList; 636 int32_t order, low, high; 637 638 do { 639 low = iter->getOffset(); 640 order = iter->next(status); 641 high = iter->getOffset(); 642 643 forwardList.add(order, low, high); 644 } while (order != CollationElementIterator::NULLORDER); 645 646 iter->reset(); 647 iter->setOffset(ts.length(), status); 648 649 backwardList.add(CollationElementIterator::NULLORDER, iter->getOffset(), iter->getOffset()); 650 651 do { 652 high = iter->getOffset(); 653 order = iter->previous(status); 654 low = iter->getOffset(); 655 656 if (order == CollationElementIterator::NULLORDER) { 657 break; 658 } 659 660 backwardList.add(order, low, high); 661 } while (TRUE); 662 663 backwardList.reverse(); 664 665 if (forwardList.compare(backwardList)) { 666 logln("Works with \"%s\"", test[i]); 667 logln("Forward offsets: [%s]", printOffsets(buffer, forwardList)); 668 // logln("Backward offsets: [%s]", printOffsets(buffer, backwardList)); 669 670 logln("Forward CEs: [%s]", printOrders(buffer, forwardList)); 671 // logln("Backward CEs: [%s]", printOrders(buffer, backwardList)); 672 673 logln(); 674 } else { 675 errln("Fails with \"%s\"", test[i]); 676 infoln("Forward offsets: [%s]", printOffsets(buffer, forwardList)); 677 infoln("Backward offsets: [%s]", printOffsets(buffer, backwardList)); 678 679 infoln("Forward CEs: [%s]", printOrders(buffer, forwardList)); 680 infoln("Backward CEs: [%s]", printOrders(buffer, backwardList)); 681 682 infoln(); 683 } 684 delete iter; 685 } 686 delete col; 687 } 688 689 #if 0 690 static UnicodeString &escape(const UnicodeString &string, UnicodeString &buffer) 691 { 692 for(int32_t i = 0; i < string.length(); i += 1) { 693 UChar32 ch = string.char32At(i); 694 695 if (ch >= 0x0020 && ch <= 0x007F) { 696 if (ch == 0x005C) { 697 buffer.append("\\\\"); 698 } else { 699 buffer.append(ch); 700 } 701 } else { 702 char cbuffer[12]; 703 704 if (ch <= 0xFFFFL) { 705 sprintf(cbuffer, "\\u%4.4X", ch); 706 } else { 707 sprintf(cbuffer, "\\U%8.8X", ch); 708 } 709 710 buffer.append(cbuffer); 711 } 712 713 if (ch >= 0x10000L) { 714 i += 1; 715 } 716 } 717 718 return buffer; 719 } 720 #endif 721 722 void SSearchTest::sharpSTest() 723 { 724 UErrorCode status = U_ZERO_ERROR; 725 UCollator *coll = NULL; 726 UnicodeString lp = "fuss"; 727 UnicodeString sp = "fu\\u00DF"; 728 UnicodeString targets[] = {"fu\\u00DF", "fu\\u00DFball", "1fu\\u00DFball", "12fu\\u00DFball", "123fu\\u00DFball", "1234fu\\u00DFball", 729 "ffu\\u00DF", "fufu\\u00DF", "fusfu\\u00DF", 730 "fuss", "ffuss", "fufuss", "fusfuss", "1fuss", "12fuss", "123fuss", "1234fuss", "fu\\u00DF", "1fu\\u00DF", "12fu\\u00DF", "123fu\\u00DF", "1234fu\\u00DF"}; 731 int32_t start = -1, end = -1; 732 733 coll = ucol_openFromShortString("LEN_S1", FALSE, NULL, &status); 734 TEST_ASSERT_SUCCESS(status); 735 736 UnicodeString lpUnescaped = lp.unescape(); 737 UnicodeString spUnescaped = sp.unescape(); 738 739 LocalUStringSearchPointer ussLong(usearch_openFromCollator(lpUnescaped.getBuffer(), lpUnescaped.length(), 740 lpUnescaped.getBuffer(), lpUnescaped.length(), // actual test data will be set later 741 coll, 742 NULL, // the break iterator 743 &status)); 744 745 LocalUStringSearchPointer ussShort(usearch_openFromCollator(spUnescaped.getBuffer(), spUnescaped.length(), 746 spUnescaped.getBuffer(), spUnescaped.length(), // actual test data will be set later 747 coll, 748 NULL, // the break iterator 749 &status)); 750 TEST_ASSERT_SUCCESS(status); 751 752 for (uint32_t t = 0; t < (sizeof(targets)/sizeof(targets[0])); t += 1) { 753 UBool bFound; 754 UnicodeString target = targets[t].unescape(); 755 756 start = end = -1; 757 usearch_setText(ussLong.getAlias(), target.getBuffer(), target.length(), &status); 758 bFound = usearch_search(ussLong.getAlias(), 0, &start, &end, &status); 759 TEST_ASSERT_SUCCESS(status); 760 if (bFound) { 761 logln("Test %d: found long pattern at [%d, %d].", t, start, end); 762 } else { 763 dataerrln("Test %d: did not find long pattern.", t); 764 } 765 766 usearch_setText(ussShort.getAlias(), target.getBuffer(), target.length(), &status); 767 bFound = usearch_search(ussShort.getAlias(), 0, &start, &end, &status); 768 TEST_ASSERT_SUCCESS(status); 769 if (bFound) { 770 logln("Test %d: found long pattern at [%d, %d].", t, start, end); 771 } else { 772 dataerrln("Test %d: did not find long pattern.", t); 773 } 774 } 775 776 ucol_close(coll); 777 } 778 779 void SSearchTest::goodSuffixTest() 780 { 781 UErrorCode status = U_ZERO_ERROR; 782 UCollator *coll = NULL; 783 UnicodeString pat = /*"gcagagag"*/ "fxeld"; 784 UnicodeString target = /*"gcatcgcagagagtatacagtacg"*/ "cloveldfxeld"; 785 int32_t start = -1, end = -1; 786 UBool bFound; 787 788 coll = ucol_open(NULL, &status); 789 TEST_ASSERT_SUCCESS(status); 790 791 LocalUStringSearchPointer ss(usearch_openFromCollator(pat.getBuffer(), pat.length(), 792 target.getBuffer(), target.length(), 793 coll, 794 NULL, // the break iterator 795 &status)); 796 TEST_ASSERT_SUCCESS(status); 797 798 bFound = usearch_search(ss.getAlias(), 0, &start, &end, &status); 799 TEST_ASSERT_SUCCESS(status); 800 if (bFound) { 801 logln("Found pattern at [%d, %d].", start, end); 802 } else { 803 dataerrln("Did not find pattern."); 804 } 805 806 ucol_close(coll); 807 } 808 809 // 810 // searchTime() A quick and dirty performance test for string search. 811 // Probably doesn't really belong as part of intltest, but it 812 // does check that the search succeeds, and gets the right result, 813 // so it serves as a functionality test also. 814 // 815 // To run as a perf test, up the loop count, select by commenting 816 // and uncommenting in the code the operation to be measured, 817 // rebuild, and measure the running time of this test alone. 818 // 819 // time LD_LIBRARY_PATH=whatever ./intltest collate/SSearchTest/searchTime 820 // 821 void SSearchTest::searchTime() { 822 static const char *longishText = 823 "Whylom, as olde stories tellen us,\n" 824 "Ther was a duk that highte Theseus:\n" 825 "Of Athenes he was lord and governour,\n" 826 "And in his tyme swich a conquerour,\n" 827 "That gretter was ther noon under the sonne.\n" 828 "Ful many a riche contree hadde he wonne;\n" 829 "What with his wisdom and his chivalrye,\n" 830 "He conquered al the regne of Femenye,\n" 831 "That whylom was y-cleped Scithia;\n" 832 "And weddede the quene Ipolita,\n" 833 "And broghte hir hoom with him in his contree\n" 834 "With muchel glorie and greet solempnitee,\n" 835 "And eek hir yonge suster Emelye.\n" 836 "And thus with victorie and with melodye\n" 837 "Lete I this noble duk to Athenes ryde,\n" 838 "And al his hoost, in armes, him bisyde.\n" 839 "And certes, if it nere to long to here,\n" 840 "I wolde han told yow fully the manere,\n" 841 "How wonnen was the regne of Femenye\n" 842 "By Theseus, and by his chivalrye;\n" 843 "And of the grete bataille for the nones\n" 844 "Bitwixen Athen's and Amazones;\n" 845 "And how asseged was Ipolita,\n" 846 "The faire hardy quene of Scithia;\n" 847 "And of the feste that was at hir weddinge,\n" 848 "And of the tempest at hir hoom-cominge;\n" 849 "But al that thing I moot as now forbere.\n" 850 "I have, God woot, a large feeld to ere,\n" 851 "And wayke been the oxen in my plough.\n" 852 "The remenant of the tale is long y-nough.\n" 853 "I wol nat letten eek noon of this route;\n" 854 "Lat every felawe telle his tale aboute,\n" 855 "And lat see now who shal the soper winne;\n" 856 "And ther I lefte, I wol ageyn biginne.\n" 857 "This duk, of whom I make mencioun,\n" 858 "When he was come almost unto the toun,\n" 859 "In al his wele and in his moste pryde,\n" 860 "He was war, as he caste his eye asyde,\n" 861 "Wher that ther kneled in the hye weye\n" 862 "A companye of ladies, tweye and tweye,\n" 863 "Ech after other, clad in clothes blake; \n" 864 "But swich a cry and swich a wo they make,\n" 865 "That in this world nis creature livinge,\n" 866 "That herde swich another weymentinge;\n" 867 "And of this cry they nolde never stenten,\n" 868 "Til they the reynes of his brydel henten.\n" 869 "'What folk ben ye, that at myn hoomcominge\n" 870 "Perturben so my feste with cryinge'?\n" 871 "Quod Theseus, 'have ye so greet envye\n" 872 "Of myn honour, that thus compleyne and crye? \n" 873 "Or who hath yow misboden, or offended?\n" 874 "And telleth me if it may been amended;\n" 875 "And why that ye ben clothed thus in blak'?\n" 876 "The eldest lady of hem alle spak,\n" 877 "When she hadde swowned with a deedly chere,\n" 878 "That it was routhe for to seen and here,\n" 879 "And seyde: 'Lord, to whom Fortune hath yiven\n" 880 "Victorie, and as a conquerour to liven,\n" 881 "Noght greveth us your glorie and your honour;\n" 882 "But we biseken mercy and socour.\n" 883 "Have mercy on our wo and our distresse.\n" 884 "Som drope of pitee, thurgh thy gentilesse,\n" 885 "Up-on us wrecched wommen lat thou falle.\n" 886 "For certes, lord, ther nis noon of us alle,\n" 887 "That she nath been a duchesse or a quene;\n" 888 "Now be we caitifs, as it is wel sene:\n" 889 "Thanked be Fortune, and hir false wheel,\n" 890 "That noon estat assureth to be weel.\n" 891 "And certes, lord, t'abyden your presence,\n" 892 "Here in the temple of the goddesse Clemence\n" 893 "We han ben waytinge al this fourtenight;\n" 894 "Now help us, lord, sith it is in thy might.\n" 895 "I wrecche, which that wepe and waille thus,\n" 896 "Was whylom wyf to king Capaneus,\n" 897 "That starf at Thebes, cursed be that day!\n" 898 "And alle we, that been in this array,\n" 899 "And maken al this lamentacioun,\n" 900 "We losten alle our housbondes at that toun,\n" 901 "Whyl that the sege ther-aboute lay.\n" 902 "And yet now th'olde Creon, weylaway!\n" 903 "The lord is now of Thebes the citee, \n" 904 "Fulfild of ire and of iniquitee,\n" 905 "He, for despyt, and for his tirannye,\n" 906 "To do the dede bodyes vileinye,\n" 907 "Of alle our lordes, whiche that ben slawe,\n" 908 "Hath alle the bodyes on an heep y-drawe,\n" 909 "And wol nat suffren hem, by noon assent,\n" 910 "Neither to been y-buried nor y-brent,\n" 911 "But maketh houndes ete hem in despyt. zet'\n"; 912 913 const char *cPattern = "maketh houndes ete hem"; 914 //const char *cPattern = "Whylom"; 915 //const char *cPattern = "zet"; 916 const char *testId = "searchTime()"; // for error macros. 917 UnicodeString target = longishText; 918 UErrorCode status = U_ZERO_ERROR; 919 920 921 LocalUCollatorPointer collator(ucol_open("en", &status)); 922 //ucol_setStrength(collator.getAlias(), collatorStrength); 923 //ucol_setAttribute(collator.getAlias(), UCOL_NORMALIZATION_MODE, normalize, &status); 924 UnicodeString uPattern = cPattern; 925 LocalUStringSearchPointer uss(usearch_openFromCollator(uPattern.getBuffer(), uPattern.length(), 926 target.getBuffer(), target.length(), 927 collator.getAlias(), 928 NULL, // the break iterator 929 &status)); 930 TEST_ASSERT_SUCCESS(status); 931 932 // int32_t foundStart; 933 // int32_t foundEnd; 934 UBool found; 935 936 // Find the match position usgin strstr 937 const char *pm = strstr(longishText, cPattern); 938 TEST_ASSERT_M(pm!=NULL, "No pattern match with strstr"); 939 int32_t refMatchPos = (int32_t)(pm - longishText); 940 int32_t icuMatchPos; 941 int32_t icuMatchEnd; 942 usearch_search(uss.getAlias(), 0, &icuMatchPos, &icuMatchEnd, &status); 943 TEST_ASSERT_SUCCESS(status); 944 TEST_ASSERT_M(refMatchPos == icuMatchPos, "strstr and icu give different match positions."); 945 946 int32_t i; 947 // int32_t j=0; 948 949 // Try loopcounts around 100000 to some millions, depending on the operation, 950 // to get runtimes of at least several seconds. 951 for (i=0; i<10000; i++) { 952 found = usearch_search(uss.getAlias(), 0, &icuMatchPos, &icuMatchEnd, &status); 953 (void)found; // Suppress set but not used warning. 954 //TEST_ASSERT_SUCCESS(status); 955 //TEST_ASSERT(found); 956 957 // usearch_setOffset(uss.getAlias(), 0, &status); 958 // icuMatchPos = usearch_next(uss.getAlias(), &status); 959 960 // The i+j stuff is to confuse the optimizer and get it to actually leave the 961 // call to strstr in place. 962 //pm = strstr(longishText+j, cPattern); 963 //j = (j + i)%5; 964 } 965 966 //printf("%ld, %d\n", pm-longishText, j); 967 } 968 969 //---------------------------------------------------------------------------------------- 970 // 971 // Random Numbers. Similar to standard lib rand() and srand() 972 // Not using library to 973 // 1. Get same results on all platforms. 974 // 2. Get access to current seed, to more easily reproduce failures. 975 // 976 //--------------------------------------------------------------------------------------- 977 static uint32_t m_seed = 1; 978 979 static uint32_t m_rand() 980 { 981 m_seed = m_seed * 1103515245 + 12345; 982 return (uint32_t)(m_seed/65536) % 32768; 983 } 984 985 class Monkey 986 { 987 public: 988 virtual void append(UnicodeString &test, UnicodeString &alternate) = 0; 989 990 protected: 991 Monkey(); 992 virtual ~Monkey(); 993 }; 994 995 Monkey::Monkey() 996 { 997 // ook? 998 } 999 1000 Monkey::~Monkey() 1001 { 1002 // ook? 1003 } 1004 1005 class SetMonkey : public Monkey 1006 { 1007 public: 1008 SetMonkey(const USet *theSet); 1009 ~SetMonkey(); 1010 1011 virtual void append(UnicodeString &test, UnicodeString &alternate); 1012 1013 private: 1014 const USet *set; 1015 }; 1016 1017 SetMonkey::SetMonkey(const USet *theSet) 1018 : Monkey(), set(theSet) 1019 { 1020 // ook? 1021 } 1022 1023 SetMonkey::~SetMonkey() 1024 { 1025 //ook... 1026 } 1027 1028 void SetMonkey::append(UnicodeString &test, UnicodeString &alternate) 1029 { 1030 int32_t size = uset_size(set); 1031 int32_t index = m_rand() % size; 1032 UChar32 ch = uset_charAt(set, index); 1033 UnicodeString str(ch); 1034 1035 test.append(str); 1036 alternate.append(str); // flip case, or some junk? 1037 } 1038 1039 class StringSetMonkey : public Monkey 1040 { 1041 public: 1042 StringSetMonkey(const USet *theSet, UCollator *theCollator, CollData *theCollData); 1043 ~StringSetMonkey(); 1044 1045 void append(UnicodeString &testCase, UnicodeString &alternate); 1046 1047 private: 1048 UnicodeString &generateAlternative(const UnicodeString &testCase, UnicodeString &alternate); 1049 1050 const USet *set; 1051 UCollator *coll; 1052 CollData *collData; 1053 }; 1054 1055 StringSetMonkey::StringSetMonkey(const USet *theSet, UCollator *theCollator, CollData *theCollData) 1056 : Monkey(), set(theSet), coll(theCollator), collData(theCollData) 1057 { 1058 // ook. 1059 } 1060 1061 StringSetMonkey::~StringSetMonkey() 1062 { 1063 // ook? 1064 } 1065 1066 void StringSetMonkey::append(UnicodeString &testCase, UnicodeString &alternate) 1067 { 1068 int32_t itemCount = uset_getItemCount(set), len = 0; 1069 int32_t index = m_rand() % itemCount; 1070 UChar32 rangeStart = 0, rangeEnd = 0; 1071 UChar buffer[16]; 1072 UErrorCode err = U_ZERO_ERROR; 1073 1074 len = uset_getItem(set, index, &rangeStart, &rangeEnd, buffer, 16, &err); 1075 1076 if (len == 0) { 1077 int32_t offset = m_rand() % (rangeEnd - rangeStart + 1); 1078 UChar32 ch = rangeStart + offset; 1079 UnicodeString str(ch); 1080 1081 testCase.append(str); 1082 generateAlternative(str, alternate); 1083 } else if (len > 0) { 1084 // should check that len < 16... 1085 UnicodeString str(buffer, len); 1086 1087 testCase.append(str); 1088 generateAlternative(str, alternate); 1089 } else { 1090 // shouldn't happen... 1091 } 1092 } 1093 1094 UnicodeString &StringSetMonkey::generateAlternative(const UnicodeString &testCase, UnicodeString &alternate) 1095 { 1096 // find out shortest string for the longest sequence of ces. 1097 // needs to be refined to use dynamic programming, but will be roughly right 1098 UErrorCode status = U_ZERO_ERROR; 1099 CEList ceList(coll, testCase, status); 1100 UnicodeString alt; 1101 int32_t offset = 0; 1102 1103 if (ceList.size() == 0) { 1104 return alternate.append(testCase); 1105 } 1106 1107 while (offset < ceList.size()) { 1108 int32_t ce = ceList.get(offset); 1109 const StringList *strings = collData->getStringList(ce); 1110 1111 if (strings == NULL) { 1112 return alternate.append(testCase); 1113 } 1114 1115 int32_t stringCount = strings->size(); 1116 int32_t tries = 0; 1117 1118 // find random string that generates the same CEList 1119 const CEList *ceList2 = NULL; 1120 const UnicodeString *string = NULL; 1121 UBool matches = FALSE; 1122 1123 do { 1124 int32_t s = m_rand() % stringCount; 1125 1126 if (tries++ > stringCount) { 1127 alternate.append(testCase); 1128 return alternate; 1129 } 1130 1131 string = strings->get(s); 1132 ceList2 = collData->getCEList(string); 1133 matches = ceList.matchesAt(offset, ceList2); 1134 1135 if (! matches) { 1136 collData->freeCEList((CEList *) ceList2); 1137 } 1138 } while (! matches); 1139 1140 alt.append(*string); 1141 offset += ceList2->size(); 1142 collData->freeCEList(ceList2); 1143 } 1144 1145 const CEList altCEs(coll, alt, status); 1146 1147 if (ceList.matchesAt(0, &altCEs)) { 1148 return alternate.append(alt); 1149 } 1150 1151 return alternate.append(testCase); 1152 } 1153 1154 static void generateTestCase(UCollator *coll, Monkey *monkeys[], int32_t monkeyCount, UnicodeString &testCase, UnicodeString &alternate) 1155 { 1156 int32_t pieces = (m_rand() % 4) + 1; 1157 UErrorCode status = U_ZERO_ERROR; 1158 UBool matches; 1159 1160 do { 1161 testCase.remove(); 1162 alternate.remove(); 1163 monkeys[0]->append(testCase, alternate); 1164 1165 for(int32_t piece = 0; piece < pieces; piece += 1) { 1166 int32_t monkey = m_rand() % monkeyCount; 1167 1168 monkeys[monkey]->append(testCase, alternate); 1169 } 1170 1171 const CEList ceTest(coll, testCase, status); 1172 const CEList ceAlt(coll, alternate, status); 1173 1174 matches = ceTest.matchesAt(0, &ceAlt); 1175 } while (! matches); 1176 } 1177 1178 static UBool simpleSearch(UCollator *coll, const UnicodeString &target, int32_t offset, const UnicodeString &pattern, int32_t &matchStart, int32_t &matchEnd) 1179 { 1180 UErrorCode status = U_ZERO_ERROR; 1181 OrderList targetOrders(coll, target, offset); 1182 OrderList patternOrders(coll, pattern); 1183 int32_t targetSize = targetOrders.size() - 1; 1184 int32_t patternSize = patternOrders.size() - 1; 1185 UBreakIterator *charBreakIterator = ubrk_open(UBRK_CHARACTER, ucol_getLocaleByType(coll, ULOC_VALID_LOCALE, &status), 1186 target.getBuffer(), target.length(), &status); 1187 1188 if (patternSize == 0) { 1189 // Searching for an empty pattern always fails 1190 matchStart = matchEnd = -1; 1191 ubrk_close(charBreakIterator); 1192 return FALSE; 1193 } 1194 1195 matchStart = matchEnd = -1; 1196 1197 for(int32_t i = 0; i < targetSize; i += 1) { 1198 if (targetOrders.matchesAt(i, patternOrders)) { 1199 int32_t start = targetOrders.getLowOffset(i); 1200 int32_t maxLimit = targetOrders.getLowOffset(i + patternSize); 1201 int32_t minLimit = targetOrders.getLowOffset(i + patternSize - 1); 1202 1203 // if the low and high offsets of the first CE in 1204 // the match are the same, it means that the match 1205 // starts in the middle of an expansion - all but 1206 // the first CE of the expansion will have the offset 1207 // of the following character. 1208 if (start == targetOrders.getHighOffset(i)) { 1209 continue; 1210 } 1211 1212 // Make sure match starts on a grapheme boundary 1213 if (! ubrk_isBoundary(charBreakIterator, start)) { 1214 continue; 1215 } 1216 1217 // If the low and high offsets of the CE after the match 1218 // are the same, it means that the match ends in the middle 1219 // of an expansion sequence. 1220 if (maxLimit == targetOrders.getHighOffset(i + patternSize) && 1221 targetOrders.getOrder(i + patternSize) != UCOL_NULLORDER) { 1222 continue; 1223 } 1224 1225 int32_t mend = maxLimit; 1226 1227 // Find the first grapheme break after the character index 1228 // of the last CE in the match. If it's after character index 1229 // that's after the last CE in the match, use that index 1230 // as the end of the match. 1231 if (minLimit < maxLimit) { 1232 // When the last CE's low index is same with its high index, the CE is likely 1233 // a part of expansion. In this case, the index is located just after the 1234 // character corresponding to the CEs compared above. If the index is right 1235 // at the break boundary, move the position to the next boundary will result 1236 // incorrect match length when there are ignorable characters exist between 1237 // the position and the next character produces CE(s). See ticket#8482. 1238 if (minLimit == targetOrders.getHighOffset(i + patternSize - 1) && ubrk_isBoundary(charBreakIterator, minLimit)) { 1239 mend = minLimit; 1240 } else { 1241 int32_t nba = ubrk_following(charBreakIterator, minLimit); 1242 1243 if (nba >= targetOrders.getHighOffset(i + patternSize - 1)) { 1244 mend = nba; 1245 } 1246 } 1247 } 1248 1249 if (mend > maxLimit) { 1250 continue; 1251 } 1252 1253 if (! ubrk_isBoundary(charBreakIterator, mend)) { 1254 continue; 1255 } 1256 1257 matchStart = start; 1258 matchEnd = mend; 1259 1260 ubrk_close(charBreakIterator); 1261 return TRUE; 1262 } 1263 } 1264 1265 ubrk_close(charBreakIterator); 1266 return FALSE; 1267 } 1268 1269 #if !UCONFIG_NO_REGULAR_EXPRESSIONS 1270 static int32_t getIntParam(UnicodeString name, UnicodeString ¶ms, int32_t defaultVal) { 1271 int32_t val = defaultVal; 1272 1273 name.append(" *= *(-?\\d+)"); 1274 1275 UErrorCode status = U_ZERO_ERROR; 1276 RegexMatcher m(name, params, 0, status); 1277 1278 if (m.find()) { 1279 // The param exists. Convert the string to an int. 1280 char valString[100]; 1281 int32_t paramLength = m.end(1, status) - m.start(1, status); 1282 1283 if (paramLength >= (int32_t)(sizeof(valString)-1)) { 1284 paramLength = (int32_t)(sizeof(valString)-2); 1285 } 1286 1287 params.extract(m.start(1, status), paramLength, valString, sizeof(valString)); 1288 val = uprv_strtol(valString, NULL, 10); 1289 1290 // Delete this parameter from the params string. 1291 m.reset(); 1292 params = m.replaceFirst("", status); 1293 } 1294 1295 //U_ASSERT(U_SUCCESS(status)); 1296 if (! U_SUCCESS(status)) { 1297 val = defaultVal; 1298 } 1299 1300 return val; 1301 } 1302 #endif 1303 1304 #if !UCONFIG_NO_COLLATION 1305 int32_t SSearchTest::monkeyTestCase(UCollator *coll, const UnicodeString &testCase, const UnicodeString &pattern, const UnicodeString &altPattern, 1306 const char *name, const char *strength, uint32_t seed) 1307 { 1308 UErrorCode status = U_ZERO_ERROR; 1309 int32_t actualStart = -1, actualEnd = -1; 1310 //int32_t expectedStart = prefix.length(), expectedEnd = prefix.length() + altPattern.length(); 1311 int32_t expectedStart = -1, expectedEnd = -1; 1312 int32_t notFoundCount = 0; 1313 LocalUStringSearchPointer uss(usearch_openFromCollator(pattern.getBuffer(), pattern.length(), 1314 testCase.getBuffer(), testCase.length(), 1315 coll, 1316 NULL, // the break iterator 1317 &status)); 1318 1319 // **** TODO: find *all* matches, not just first one **** 1320 simpleSearch(coll, testCase, 0, pattern, expectedStart, expectedEnd); 1321 1322 usearch_search(uss.getAlias(), 0, &actualStart, &actualEnd, &status); 1323 1324 if (expectedStart >= 0 && (actualStart != expectedStart || actualEnd != expectedEnd)) { 1325 errln("Search for <pattern> in <%s> failed: expected [%d, %d], got [%d, %d]\n" 1326 " strength=%s seed=%d", 1327 name, expectedStart, expectedEnd, actualStart, actualEnd, strength, seed); 1328 } 1329 1330 if (expectedStart == -1 && actualStart == -1) { 1331 notFoundCount += 1; 1332 } 1333 1334 // **** TODO: find *all* matches, not just first one **** 1335 simpleSearch(coll, testCase, 0, altPattern, expectedStart, expectedEnd); 1336 1337 usearch_setPattern(uss.getAlias(), altPattern.getBuffer(), altPattern.length(), &status); 1338 1339 usearch_search(uss.getAlias(), 0, &actualStart, &actualEnd, &status); 1340 1341 if (expectedStart >= 0 && (actualStart != expectedStart || actualEnd != expectedEnd)) { 1342 errln("Search for <alt_pattern> in <%s> failed: expected [%d, %d], got [%d, %d]\n" 1343 " strength=%s seed=%d", 1344 name, expectedStart, expectedEnd, actualStart, actualEnd, strength, seed); 1345 } 1346 1347 if (expectedStart == -1 && actualStart == -1) { 1348 notFoundCount += 1; 1349 } 1350 1351 return notFoundCount; 1352 } 1353 #endif 1354 1355 void SSearchTest::monkeyTest(char *params) 1356 { 1357 // ook! 1358 UErrorCode status = U_ZERO_ERROR; 1359 //UCollator *coll = ucol_open(NULL, &status); 1360 UCollator *coll = ucol_openFromShortString("S1", FALSE, NULL, &status); 1361 1362 if (U_FAILURE(status)) { 1363 errcheckln(status, "Failed to create collator in MonkeyTest! - %s", u_errorName(status)); 1364 return; 1365 } 1366 1367 CollData *monkeyData = new CollData(coll, status); 1368 1369 USet *expansions = uset_openEmpty(); 1370 USet *contractions = uset_openEmpty(); 1371 1372 ucol_getContractionsAndExpansions(coll, contractions, expansions, FALSE, &status); 1373 1374 U_STRING_DECL(letter_pattern, "[[:letter:]-[:ideographic:]-[:hangul:]]", 39); 1375 U_STRING_INIT(letter_pattern, "[[:letter:]-[:ideographic:]-[:hangul:]]", 39); 1376 USet *letters = uset_openPattern(letter_pattern, 39, &status); 1377 SetMonkey letterMonkey(letters); 1378 StringSetMonkey contractionMonkey(contractions, coll, monkeyData); 1379 StringSetMonkey expansionMonkey(expansions, coll, monkeyData); 1380 UnicodeString testCase; 1381 UnicodeString alternate; 1382 UnicodeString pattern, altPattern; 1383 UnicodeString prefix, altPrefix; 1384 UnicodeString suffix, altSuffix; 1385 1386 Monkey *monkeys[] = { 1387 &letterMonkey, 1388 &contractionMonkey, 1389 &expansionMonkey, 1390 &contractionMonkey, 1391 &expansionMonkey, 1392 &contractionMonkey, 1393 &expansionMonkey, 1394 &contractionMonkey, 1395 &expansionMonkey}; 1396 int32_t monkeyCount = sizeof(monkeys) / sizeof(monkeys[0]); 1397 // int32_t nonMatchCount = 0; 1398 1399 UCollationStrength strengths[] = {UCOL_PRIMARY, UCOL_SECONDARY, UCOL_TERTIARY}; 1400 const char *strengthNames[] = {"primary", "secondary", "tertiary"}; 1401 int32_t strengthCount = sizeof(strengths) / sizeof(strengths[0]); 1402 int32_t loopCount = quick? 1000 : 10000; 1403 int32_t firstStrength = 0; 1404 int32_t lastStrength = strengthCount - 1; //*/ 0; 1405 1406 if (params != NULL) { 1407 #if !UCONFIG_NO_REGULAR_EXPRESSIONS 1408 UnicodeString p(params); 1409 1410 loopCount = getIntParam("loop", p, loopCount); 1411 m_seed = getIntParam("seed", p, m_seed); 1412 1413 RegexMatcher m(" *strength *= *(primary|secondary|tertiary) *", p, 0, status); 1414 if (m.find()) { 1415 UnicodeString breakType = m.group(1, status); 1416 1417 for (int32_t s = 0; s < strengthCount; s += 1) { 1418 if (breakType == strengthNames[s]) { 1419 firstStrength = lastStrength = s; 1420 break; 1421 } 1422 } 1423 1424 m.reset(); 1425 p = m.replaceFirst("", status); 1426 } 1427 1428 if (RegexMatcher("\\S", p, 0, status).find()) { 1429 // Each option is stripped out of the option string as it is processed. 1430 // All options have been checked. The option string should have been completely emptied.. 1431 char buf[100]; 1432 p.extract(buf, sizeof(buf), NULL, status); 1433 buf[sizeof(buf)-1] = 0; 1434 errln("Unrecognized or extra parameter: %s\n", buf); 1435 return; 1436 } 1437 #else 1438 infoln("SSearchTest built with UCONFIG_NO_REGULAR_EXPRESSIONS: ignoring parameters."); 1439 #endif 1440 } 1441 1442 for(int32_t s = firstStrength; s <= lastStrength; s += 1) { 1443 int32_t notFoundCount = 0; 1444 1445 logln("Setting strength to %s.", strengthNames[s]); 1446 ucol_setStrength(coll, strengths[s]); 1447 1448 // TODO: try alternate prefix and suffix too? 1449 // TODO: alternates are only equal at primary strength. Is this OK? 1450 for(int32_t t = 0; t < loopCount; t += 1) { 1451 uint32_t seed = m_seed; 1452 // int32_t nmc = 0; 1453 1454 generateTestCase(coll, monkeys, monkeyCount, pattern, altPattern); 1455 generateTestCase(coll, monkeys, monkeyCount, prefix, altPrefix); 1456 generateTestCase(coll, monkeys, monkeyCount, suffix, altSuffix); 1457 1458 // pattern 1459 notFoundCount += monkeyTestCase(coll, pattern, pattern, altPattern, "pattern", strengthNames[s], seed); 1460 1461 testCase.remove(); 1462 testCase.append(prefix); 1463 testCase.append(/*alt*/pattern); 1464 1465 // prefix + pattern 1466 notFoundCount += monkeyTestCase(coll, testCase, pattern, altPattern, "prefix + pattern", strengthNames[s], seed); 1467 1468 testCase.append(suffix); 1469 1470 // prefix + pattern + suffix 1471 notFoundCount += monkeyTestCase(coll, testCase, pattern, altPattern, "prefix + pattern + suffix", strengthNames[s], seed); 1472 1473 testCase.remove(); 1474 testCase.append(pattern); 1475 testCase.append(suffix); 1476 1477 // pattern + suffix 1478 notFoundCount += monkeyTestCase(coll, testCase, pattern, altPattern, "pattern + suffix", strengthNames[s], seed); 1479 } 1480 1481 logln("For strength %s the not found count is %d.", strengthNames[s], notFoundCount); 1482 } 1483 1484 uset_close(contractions); 1485 uset_close(expansions); 1486 uset_close(letters); 1487 delete monkeyData; 1488 1489 ucol_close(coll); 1490 } 1491 1492 #endif 1493 1494 #endif 1495
