1 /********************************************************************
3 * Copyright (c) 2012-2016, International Business Machines Corporation
4 * and others. All Rights Reserved.
5 ********************************************************************/
7 // file: alphaindextst.cpp
8 // Alphabetic Index Tests.
10 // Note: please... no character literals cast to UChars.. use (UChar)0xZZZZ
12 #include <stdio.h> // for sprintf
15 #include "alphaindextst.h"
18 #include "unicode/alphaindex.h"
19 #include "unicode/coll.h"
20 #include "unicode/localpointer.h"
21 #include "unicode/tblcoll.h"
22 #include "unicode/uniset.h"
24 #if !UCONFIG_NO_COLLATION && !UCONFIG_NO_NORMALIZATION
27 // #include <iostream>
31 UnicodeString
joinLabelsAndAppend(AlphabeticIndex::ImmutableIndex
&index
, UnicodeString
&dest
) {
32 int32_t oldLength
= dest
.length();
33 const AlphabeticIndex::Bucket
*bucket
;
34 for (int32_t i
= 0; (bucket
= index
.getBucket(i
)) != NULL
; ++i
) {
35 if (dest
.length() > oldLength
) {
36 dest
.append((UChar
)0x3A); // ':'
38 dest
.append(bucket
->getLabel());
45 AlphabeticIndexTest::AlphabeticIndexTest() {
48 AlphabeticIndexTest::~AlphabeticIndexTest() {
51 void AlphabeticIndexTest::runIndexedTest( int32_t index
, UBool exec
, const char* &name
, char* /*par*/ )
53 if (exec
) logln("TestSuite AlphabeticIndex: ");
55 TESTCASE_AUTO(APITest
);
56 TESTCASE_AUTO(ManyLocalesTest
);
57 TESTCASE_AUTO(HackPinyinTest
);
58 TESTCASE_AUTO(TestBug9009
);
59 TESTCASE_AUTO(TestIndexCharactersList
);
60 TESTCASE_AUTO(TestHaniFirst
);
61 TESTCASE_AUTO(TestPinyinFirst
);
62 TESTCASE_AUTO(TestSchSt
);
63 TESTCASE_AUTO(TestNoLabels
);
64 TESTCASE_AUTO(TestChineseZhuyin
);
65 TESTCASE_AUTO(TestJapaneseKanji
);
66 TESTCASE_AUTO(TestChineseUnihan
);
70 #define TEST_CHECK_STATUS {if (U_FAILURE(status)) {dataerrln("%s:%d: Test failure. status=%s", \
71 __FILE__, __LINE__, u_errorName(status)); return;}}
73 #define TEST_ASSERT(expr) {if ((expr)==FALSE) {errln("%s:%d: Test failure \n", __FILE__, __LINE__);};}
76 // APITest. Invoke every function at least once, and check that it does something.
77 // Does not attempt to check complete functionality.
79 void AlphabeticIndexTest::APITest() {
81 // Simple constructor and destructor, getBucketCount()
83 UErrorCode status
= U_ZERO_ERROR
;
86 AlphabeticIndex
*index
= new AlphabeticIndex(Locale::getEnglish(), status
);
88 lc
= index
->getBucketCount(status
);
90 TEST_ASSERT(28 == lc
); // 26 letters plus two under/overflow labels.
91 //printf("getBucketCount() == %d\n", lc);
94 // Constructor from a Collator
96 status
= U_ZERO_ERROR
;
97 RuleBasedCollator
*coll
= dynamic_cast<RuleBasedCollator
*>(
98 Collator::createInstance(Locale::getGerman(), status
));
100 TEST_ASSERT(coll
!= NULL
);
101 index
= new AlphabeticIndex(coll
, status
);
103 TEST_ASSERT(coll
== &index
->getCollator());
104 assertEquals("only the underflow label in an index built from a collator",
105 1, index
->getBucketCount(status
));
112 status
= U_ZERO_ERROR
;
113 index
= new AlphabeticIndex(Locale::getEnglish(), status
);
115 UnicodeSet additions
;
116 additions
.add((UChar32
)0x410).add((UChar32
)0x415); // A couple of Cyrillic letters
117 index
->addLabels(additions
, status
);
119 lc
= index
->getBucketCount(status
);
121 assertEquals("underflow, A-Z, inflow, 2 Cyrillic, overflow",
122 31, index
->getBucketCount(status
));
123 // std::cout << lc << std::endl;
129 status
= U_ZERO_ERROR
;
130 index
= new AlphabeticIndex(Locale::getEnglish(), status
);
132 AlphabeticIndex
&aip
= index
->addLabels(Locale::getJapanese(), status
);
133 TEST_ASSERT(&aip
== index
);
135 lc
= index
->getBucketCount(status
);
137 TEST_ASSERT(35 < lc
); // Japanese should add a bunch. Don't rely on the exact value.
140 // GetCollator(), Get under/in/over flow labels
142 status
= U_ZERO_ERROR
;
143 index
= new AlphabeticIndex(Locale::getGerman(), status
);
145 Collator
*germanCol
= Collator::createInstance(Locale::getGerman(), status
);
147 const RuleBasedCollator
&indexCol
= index
->getCollator();
148 TEST_ASSERT(*germanCol
== indexCol
);
151 UnicodeString ELLIPSIS
; ELLIPSIS
.append((UChar32
)0x2026);
152 UnicodeString s
= index
->getUnderflowLabel();
153 TEST_ASSERT(ELLIPSIS
== s
);
154 s
= index
->getOverflowLabel();
155 TEST_ASSERT(ELLIPSIS
== s
);
156 s
= index
->getInflowLabel();
157 TEST_ASSERT(ELLIPSIS
== s
);
158 index
->setOverflowLabel(UNICODE_STRING_SIMPLE("O"), status
);
159 index
->setUnderflowLabel(UNICODE_STRING_SIMPLE("U"), status
).setInflowLabel(UNICODE_STRING_SIMPLE("I"), status
);
160 s
= index
->getUnderflowLabel();
161 TEST_ASSERT(UNICODE_STRING_SIMPLE("U") == s
);
162 s
= index
->getOverflowLabel();
163 TEST_ASSERT(UNICODE_STRING_SIMPLE("O") == s
);
164 s
= index
->getInflowLabel();
165 TEST_ASSERT(UNICODE_STRING_SIMPLE("I") == s
);
174 const UnicodeString adam
= UNICODE_STRING_SIMPLE("Adam");
175 const UnicodeString baker
= UNICODE_STRING_SIMPLE("Baker");
176 const UnicodeString charlie
= UNICODE_STRING_SIMPLE("Charlie");
177 const UnicodeString chad
= UNICODE_STRING_SIMPLE("Chad");
178 const UnicodeString zed
= UNICODE_STRING_SIMPLE("Zed");
179 const UnicodeString Cyrillic
= UNICODE_STRING_SIMPLE("\\u0410\\u0443\\u0435").unescape();
181 // addRecord(), verify that it comes back out.
183 status
= U_ZERO_ERROR
;
184 index
= new AlphabeticIndex(Locale::getEnglish(), status
);
186 index
->addRecord(UnicodeString("Adam"), this, status
);
189 index
->resetBucketIterator(status
);
191 index
->nextBucket(status
); // Move to underflow label
192 index
->nextBucket(status
); // Move to "A"
194 const UnicodeString
&label2
= index
->getBucketLabel();
195 UnicodeString A_STR
= UNICODE_STRING_SIMPLE("A");
196 TEST_ASSERT(A_STR
== label2
);
198 b
= index
->nextRecord(status
);
201 const UnicodeString
&itemName
= index
->getRecordName();
202 TEST_ASSERT(adam
== itemName
);
204 const void *itemContext
= index
->getRecordData();
205 TEST_ASSERT(itemContext
== this);
209 // clearRecords, addRecord(), Iteration
211 status
= U_ZERO_ERROR
;
212 index
= new AlphabeticIndex(Locale::getEnglish(), status
);
214 while (index
->nextBucket(status
)) {
216 while (index
->nextRecord(status
)) {
218 TEST_ASSERT(FALSE
); // No items have been added.
223 index
->addRecord(adam
, NULL
, status
);
224 index
->addRecord(baker
, NULL
, status
);
225 index
->addRecord(charlie
, NULL
, status
);
226 index
->addRecord(chad
, NULL
, status
);
229 index
->resetBucketIterator(status
);
230 while (index
->nextBucket(status
)) {
232 while (index
->nextRecord(status
)) {
238 TEST_ASSERT(itemCount
== 4);
240 TEST_ASSERT(index
->nextBucket(status
) == FALSE
);
241 index
->resetBucketIterator(status
);
243 TEST_ASSERT(index
->nextBucket(status
) == TRUE
);
245 index
->clearRecords(status
);
247 index
->resetBucketIterator(status
);
248 while (index
->nextBucket(status
)) {
250 while (index
->nextRecord(status
)) {
251 TEST_ASSERT(FALSE
); // No items have been added.
257 // getBucketLabel(), getBucketType()
259 status
= U_ZERO_ERROR
;
260 index
= new AlphabeticIndex(Locale::getEnglish(), status
);
262 index
->setUnderflowLabel(adam
, status
).setOverflowLabel(charlie
, status
);
264 for (i
=0; index
->nextBucket(status
); i
++) {
266 UnicodeString label
= index
->getBucketLabel();
267 UAlphabeticIndexLabelType type
= index
->getBucketLabelType();
269 TEST_ASSERT(type
== U_ALPHAINDEX_UNDERFLOW
);
270 TEST_ASSERT(label
== adam
);
271 } else if (i
<= 26) {
272 // Labels A - Z for English locale
273 TEST_ASSERT(type
== U_ALPHAINDEX_NORMAL
);
274 UnicodeString
expectedLabel((UChar
)(0x40 + i
));
275 TEST_ASSERT(expectedLabel
== label
);
276 } else if (i
== 27) {
277 TEST_ASSERT(type
== U_ALPHAINDEX_OVERFLOW
);
278 TEST_ASSERT(label
== charlie
);
288 status
= U_ZERO_ERROR
;
289 index
= new AlphabeticIndex(Locale::getEnglish(), status
);
291 int32_t n
= index
->getBucketIndex(adam
, status
);
293 TEST_ASSERT(n
== 1); /* Label #0 is underflow, 1 is A, etc. */
294 n
= index
->getBucketIndex(baker
, status
);
296 n
= index
->getBucketIndex(Cyrillic
, status
);
297 TEST_ASSERT(n
== 27); // Overflow label
298 n
= index
->getBucketIndex(zed
, status
);
299 TEST_ASSERT(n
== 26);
301 for (i
=0; index
->nextBucket(status
); i
++) {
302 n
= index
->getBucketIndex();
304 UnicodeString label
= index
->getBucketLabel();
307 TEST_ASSERT(i
== 28);
310 index
= new AlphabeticIndex(Locale::createFromName("ru"), status
);
312 assertEquals("Russian index.getBucketCount()", 32, index
->getBucketCount(status
));
313 // Latin-script names should go into the underflow label (0)
314 // if the Russian collation does not use script reordering,
315 // but into the overflow label (getBucketCount()-1)
316 // if Russian sorts Cyrillic first.
317 int32_t reorderCodes
[20];
318 int32_t expectedLatinIndex
= 0;
319 if (index
->getCollator().getReorderCodes(reorderCodes
, UPRV_LENGTHOF(reorderCodes
), status
) > 0) {
320 expectedLatinIndex
= index
->getBucketCount(status
) - 1;
322 n
= index
->getBucketIndex(adam
, status
);
324 assertEquals("Russian index.getBucketIndex(adam)", expectedLatinIndex
, n
);
325 n
= index
->getBucketIndex(baker
, status
);
326 assertEquals("Russian index.getBucketIndex(baker)", expectedLatinIndex
, n
);
327 n
= index
->getBucketIndex(Cyrillic
, status
);
328 assertEquals("Russian index.getBucketIndex(Cyrillic)", 1, n
);
329 n
= index
->getBucketIndex(zed
, status
);
330 assertEquals("Russian index.getBucketIndex(zed)", expectedLatinIndex
, n
);
337 static const char * KEY_LOCALES
[] = {
338 "en", "es", "de", "fr", "ja", "it", "tr", "pt", "zh", "nl",
339 "pl", "ar", "ru", "zh_Hant", "ko", "th", "sv", "fi", "da",
340 "he", "nb", "el", "hr", "bg", "sk", "lt", "vi", "lv", "sr",
341 "pt_PT", "ro", "hu", "cs", "id", "sl", "fil", "fa", "uk",
342 "ca", "hi", "et", "eu", "is", "sw", "ms", "bn", "am", "ta",
343 "te", "mr", "ur", "ml", "kn", "gu", "or", ""};
346 void AlphabeticIndexTest::ManyLocalesTest() {
347 UErrorCode status
= U_ZERO_ERROR
;
350 for (int i
=0; ; ++i
) {
351 status
= U_ZERO_ERROR
;
352 const char *localeName
= KEY_LOCALES
[i
];
353 if (localeName
[0] == 0) {
356 // std::cout << localeName << " ";
357 Locale loc
= Locale::createFromName(localeName
);
358 AlphabeticIndex
index(loc
, status
);
360 lc
= index
.getBucketCount(status
);
362 // std::cout << "getBucketCount() == " << lc << std::endl;
364 LocalPointer
<AlphabeticIndex::ImmutableIndex
> immIndex(index
.buildImmutableIndex(status
));
366 TEST_ASSERT(lc
== immIndex
->getBucketCount());
368 assertEquals("initial bucket index", -1, index
.getBucketIndex());
369 int32_t bucketIndex
= 0;
370 while (index
.nextBucket(status
)) {
372 assertEquals("bucket index", bucketIndex
, index
.getBucketIndex());
373 const UnicodeString
&label
= index
.getBucketLabel();
374 TEST_ASSERT(label
.length()>0);
376 // std::cout << ":" << label.toUTF8String(ss);
377 const AlphabeticIndex::Bucket
*bucket
= immIndex
->getBucket(bucketIndex
);
378 TEST_ASSERT(bucket
!= NULL
);
379 assertEquals("bucket label vs. immutable: locale=" + UnicodeString(localeName
) +
380 " index=" + bucketIndex
,
381 label
, bucket
->getLabel());
382 TEST_ASSERT(&label
!= &bucket
->getLabel()); // not the same pointers
383 UAlphabeticIndexLabelType labelType
= index
.getBucketLabelType();
384 TEST_ASSERT(labelType
== bucket
->getLabelType());
387 // std::cout << ":" << std::endl;
389 TEST_ASSERT(immIndex
->getBucketCount() == bucketIndex
);
390 TEST_ASSERT(immIndex
->getBucket(-1) == NULL
);
391 TEST_ASSERT(immIndex
->getBucket(bucketIndex
) == NULL
);
396 // Test data for Pinyin based indexes.
397 // The Chinese characters should be distributed under latin labels in
400 static const char *pinyinTestData
[] = {
401 "\\u0101", "\\u5416", "\\u58ba", //
402 "b", "\\u516b", "\\u62d4", "\\u8500", //
403 "c", "\\u5693", "\\u7938", "\\u9e7e", //
404 "d", "\\u5491", "\\u8fcf", "\\u964a", //
405 "\\u0113","\\u59b8", "\\u92e8", "\\u834b", //
406 "f", "\\u53d1", "\\u9197", "\\u99a5", //
407 "g", "\\u7324", "\\u91d3", "\\u8142", //
408 "h", "\\u598e", "\\u927f", "\\u593b", //
409 "j", "\\u4e0c", "\\u6785", "\\u9d58", //
410 "k", "\\u5494", "\\u958b", "\\u7a52", //
411 "l", "\\u5783", "\\u62c9", "\\u9ba5", //
412 "m", "\\u5638", "\\u9ebb", "\\u65c0", //
413 "n", "\\u62ff", "\\u80ad", "\\u685b", //
414 "\\u014D", "\\u5662", "\\u6bee", "\\u8bb4", //
415 "p", "\\u5991", "\\u8019", "\\u8c31", //
416 "q", "\\u4e03", "\\u6053", "\\u7f56", //
417 "r", "\\u5465", "\\u72aa", "\\u6e03", //
418 "s", "\\u4ee8", "\\u9491", "\\u93c1", //
419 "t", "\\u4ed6", "\\u9248", "\\u67dd", //
420 "w", "\\u5c72", "\\u5558", "\\u5a7a", //
421 "x", "\\u5915", "\\u5438", "\\u6bbe", //
422 "y", "\\u4e2b", "\\u82bd", "\\u8574", //
423 "z", "\\u5e00", "\\u707d", "\\u5c0a",
427 void AlphabeticIndexTest::HackPinyinTest() {
428 UErrorCode status
= U_ZERO_ERROR
;
429 AlphabeticIndex
aindex(Locale::createFromName("zh"), status
);
432 UnicodeString names
[UPRV_LENGTHOF(pinyinTestData
)];
434 for (nameCount
=0; pinyinTestData
[nameCount
] != NULL
; nameCount
++) {
435 names
[nameCount
] = UnicodeString(pinyinTestData
[nameCount
], -1, UnicodeString::kInvariant
).unescape();
436 aindex
.addRecord(names
[nameCount
], &names
[nameCount
], status
);
438 if (U_FAILURE(status
)) {
442 TEST_ASSERT(nameCount
== aindex
.getRecordCount(status
));
444 // Weak checking: make sure that none of the Chinese names landed in the overflow bucket
445 // of the index, and that the names are distributed among several buckets.
446 // (Exact expected data would be subject to change with evolution of the collation rules.)
448 int32_t bucketCount
= 0;
449 int32_t filledBucketCount
= 0;
450 while (aindex
.nextBucket(status
)) {
452 UnicodeString label
= aindex
.getBucketLabel();
454 // std::cout << label.toUTF8String(s) << ": ";
456 UBool bucketHasContents
= FALSE
;
457 while (aindex
.nextRecord(status
)) {
458 bucketHasContents
= TRUE
;
459 UnicodeString name
= aindex
.getRecordName();
460 if (aindex
.getBucketLabelType() != U_ALPHAINDEX_NORMAL
) {
461 errln("File %s, Line %d, Name \"\\u%x\" is in an under or overflow bucket.",
462 __FILE__
, __LINE__
, name
.char32At(0));
465 // std::cout << aindex.getRecordName().toUTF8String(s) << " ";
467 if (bucketHasContents
) {
470 // std::cout << std::endl;
472 TEST_ASSERT(bucketCount
> 25);
473 TEST_ASSERT(filledBucketCount
> 15);
477 void AlphabeticIndexTest::TestBug9009() {
478 UErrorCode status
= U_ZERO_ERROR
;
480 AlphabeticIndex
aindex(loc
, status
);
482 aindex
.nextBucket(status
); // Crash here before bug was fixed.
486 static const char *localeAndIndexCharactersLists
[][2] = {
487 /* Arabic*/ {"ar", "\\u0627:\\u0628:\\u062A:\\u062B:\\u062C:\\u062D:\\u062E:\\u062F:\\u0630:\\u0631:\\u0632:\\u0633:\\u0634:\\u0635:\\u0636:\\u0637:\\u0638:\\u0639:\\u063A:\\u0641:\\u0642:\\u0643:\\u0644:\\u0645:\\u0646:\\u0647:\\u0648:\\u064A"},
488 /* Bulgarian*/ {"bg", "\\u0410:\\u0411:\\u0412:\\u0413:\\u0414:\\u0415:\\u0416:\\u0417:\\u0418:\\u0419:\\u041A:\\u041B:\\u041C:\\u041D:\\u041E:\\u041F:\\u0420:\\u0421:\\u0422:\\u0423:\\u0424:\\u0425:\\u0426:\\u0427:\\u0428:\\u0429:\\u042E:\\u042F"},
489 /* Catalan*/ {"ca", "A:B:C:D:E:F:G:H:I:J:K:L:M:N:O:P:Q:R:S:T:U:V:W:X:Y:Z"},
490 /* Czech*/ {"cs", "A:B:C:\\u010C:D:E:F:G:H:CH:I:J:K:L:M:N:O:P:Q:R:\\u0158:S:\\u0160:T:U:V:W:X:Y:Z:\\u017D"},
491 /* Danish*/ {"da", "A:B:C:D:E:F:G:H:I:J:K:L:M:N:O:P:Q:R:S:T:U:V:W:X:Y:Z:\\u00C6:\\u00D8:\\u00C5"},
492 /* German*/ {"de", "A:B:C:D:E:F:G:H:I:J:K:L:M:N:O:P:Q:R:S:T:U:V:W:X:Y:Z"},
493 /* Greek*/ {"el", "\\u0391:\\u0392:\\u0393:\\u0394:\\u0395:\\u0396:\\u0397:\\u0398:\\u0399:\\u039A:\\u039B:\\u039C:\\u039D:\\u039E:\\u039F:\\u03A0:\\u03A1:\\u03A3:\\u03A4:\\u03A5:\\u03A6:\\u03A7:\\u03A8:\\u03A9"},
494 /* English*/ {"en", "A:B:C:D:E:F:G:H:I:J:K:L:M:N:O:P:Q:R:S:T:U:V:W:X:Y:Z"},
495 /* Spanish*/ {"es", "A:B:C:D:E:F:G:H:I:J:K:L:M:N:\\u00D1:O:P:Q:R:S:T:U:V:W:X:Y:Z"},
496 /* Estonian*/ {"et", "A:B:C:D:E:F:G:H:I:J:K:L:M:N:O:P:Q:R:S:\\u0160:Z:\\u017D:T:U:V:\\u00D5:\\u00C4:\\u00D6:\\u00DC:X:Y"},
497 /* Basque*/ {"eu", "A:B:C:D:E:F:G:H:I:J:K:L:M:N:O:P:Q:R:S:T:U:V:W:X:Y:Z"},
498 /* Finnish*/ {"fi", "A:B:C:D:E:F:G:H:I:J:K:L:M:N:O:P:Q:R:S:T:U:V:W:X:Y:Z:\\u00C5:\\u00C4:\\u00D6"},
499 /* Filipino*/ {"fil", "A:B:C:D:E:F:G:H:I:J:K:L:M:N:O:P:Q:R:S:T:U:V:W:X:Y:Z"},
500 /* French*/ {"fr", "A:B:C:D:E:F:G:H:I:J:K:L:M:N:O:P:Q:R:S:T:U:V:W:X:Y:Z"},
501 /* Hebrew*/ {"he", "\\u05D0:\\u05D1:\\u05D2:\\u05D3:\\u05D4:\\u05D5:\\u05D6:\\u05D7:\\u05D8:\\u05D9:\\u05DB:\\u05DC:\\u05DE:\\u05E0:\\u05E1:\\u05E2:\\u05E4:\\u05E6:\\u05E7:\\u05E8:\\u05E9:\\u05EA"},
502 /* Icelandic*/ {"is", "A:\\u00C1:B:C:D:\\u00D0:E:\\u00C9:F:G:H:I:\\u00CD:J:K:L:M:N:O:\\u00D3:P:Q:R:S:T:U:\\u00DA:V:W:X:Y:\\u00DD:Z:\\u00DE:\\u00C6:\\u00D6"},
503 /* Italian*/ {"it", "A:B:C:D:E:F:G:H:I:J:K:L:M:N:O:P:Q:R:S:T:U:V:W:X:Y:Z"},
504 /* Japanese*/ {"ja", "\\u3042:\\u304B:\\u3055:\\u305F:\\u306A:\\u306F:\\u307E:\\u3084:\\u3089:\\u308F"},
505 /* Korean*/ {"ko", "\\u3131:\\u3134:\\u3137:\\u3139:\\u3141:\\u3142:\\u3145:\\u3147:\\u3148:\\u314A:\\u314B:\\u314C:\\u314D:\\u314E"},
506 /* Lithuanian*/ {"lt", "A:B:C:\\u010C:D:E:F:G:H:I:J:K:L:M:N:O:P:R:S:\\u0160:T:U:V:Z:\\u017D"},
507 /* Latvian*/ {"lv", "A:B:C:\\u010C:D:E:F:G:\\u0122:H:I:J:K:\\u0136:L:\\u013B:M:N:\\u0145:O:P:Q:R:S:\\u0160:T:U:V:W:X:Z:\\u017D"},
508 /* Norwegian Bokm\\u00E5l*/ {"nb", "A:B:C:D:E:F:G:H:I:J:K:L:M:N:O:P:Q:R:S:T:U:V:W:X:Y:Z:\\u00C6:\\u00D8:\\u00C5"},
509 /* Dutch*/ {"nl", "A:B:C:D:E:F:G:H:I:J:K:L:M:N:O:P:Q:R:S:T:U:V:W:X:Y:Z"},
510 /* Polish*/ {"pl", "A:\\u0104:B:C:\\u0106:D:E:\\u0118:F:G:H:I:J:K:L:\\u0141:M:N:\\u0143:O:\\u00D3:P:Q:R:S:\\u015A:T:U:V:W:X:Y:Z:\\u0179:\\u017B"},
511 /* Portuguese*/ {"pt", "A:B:C:D:E:F:G:H:I:J:K:L:M:N:O:P:Q:R:S:T:U:V:W:X:Y:Z"},
512 /* Romanian*/ {"ro", "A:\\u0102:\\u00C2:B:C:D:E:F:G:H:I:\\u00CE:J:K:L:M:N:O:P:Q:R:S:\\u0218:T:\\u021A:U:V:W:X:Y:Z"},
513 /* Russian*/ {"ru", "\\u0410:\\u0411:\\u0412:\\u0413:\\u0414:\\u0415:\\u0416:\\u0417:\\u0418:\\u0419:\\u041A:\\u041B:\\u041C:\\u041D:\\u041E:\\u041F:\\u0420:\\u0421:\\u0422:\\u0423:\\u0424:\\u0425:\\u0426:\\u0427:\\u0428:\\u0429:\\u042B:\\u042D:\\u042E:\\u042F"},
514 /* Slovak*/ {"sk", "A:\\u00C4:B:C:\\u010C:D:E:F:G:H:CH:I:J:K:L:M:N:O:\\u00D4:P:Q:R:S:\\u0160:T:U:V:W:X:Y:Z:\\u017D"},
515 /* Slovenian*/ {"sl", "A:B:C:\\u010C:\\u0106:D:\\u0110:E:F:G:H:I:J:K:L:M:N:O:P:Q:R:S:\\u0160:T:U:V:W:X:Y:Z:\\u017D"},
516 /* Serbian*/ {"sr", "\\u0410:\\u0411:\\u0412:\\u0413:\\u0414:\\u0402:\\u0415:\\u0416:\\u0417:\\u0418:\\u0408:\\u041A:\\u041B:\\u0409:\\u041C:\\u041D:\\u040A:\\u041E:\\u041F:\\u0420:\\u0421:\\u0422:\\u040B:\\u0423:\\u0424:\\u0425:\\u0426:\\u0427:\\u040F:\\u0428"},
517 /* Swedish*/ {"sv", "A:B:C:D:E:F:G:H:I:J:K:L:M:N:O:P:Q:R:S:T:U:V:W:X:Y:Z:\\u00C5:\\u00C4:\\u00D6"},
518 /* Turkish*/ {"tr", "A:B:C:\\u00C7:D:E:F:G:H:I:\\u0130:J:K:L:M:N:O:\\u00D6:P:Q:R:S:\\u015E:T:U:\\u00DC:V:W:X:Y:Z"},
519 /* Ukrainian*/ {"uk", "\\u0410:\\u0411:\\u0412:\\u0413:\\u0490:\\u0414:\\u0415:\\u0404:\\u0416:\\u0417:\\u0418:\\u0406:\\u0407:\\u0419:\\u041A:\\u041B:\\u041C:\\u041D:\\u041E:\\u041F:\\u0420:\\u0421:\\u0422:\\u0423:\\u0424:\\u0425:\\u0426:\\u0427:\\u0428:\\u0429:\\u042E:\\u042F"},
520 /* Vietnamese*/ {"vi", "A:\\u0102:\\u00C2:B:C:D:\\u0110:E:\\u00CA:F:G:H:I:J:K:L:M:N:O:\\u00D4:\\u01A0:P:Q:R:S:T:U:\\u01AF:V:W:X:Y:Z"},
521 /* Chinese*/ {"zh", "A:B:C:D:E:F:G:H:I:J:K:L:M:N:O:P:Q:R:S:T:U:V:W:X:Y:Z"},
522 /* Chinese (Traditional Han)*/ {"zh_Hant", "1\\u5283:2\\u5283:3\\u5283:4\\u5283:5\\u5283:6\\u5283:7\\u5283:8\\u5283:9\\u5283:10\\u5283:11\\u5283:12\\u5283:13\\u5283:14\\u5283:15\\u5283:16\\u5283:17\\u5283:18\\u5283:19\\u5283:20\\u5283:21\\u5283:22\\u5283:23\\u5283:24\\u5283:25\\u5283:26\\u5283:27\\u5283:28\\u5283:29\\u5283:30\\u5283:31\\u5283:32\\u5283:33\\u5283:35\\u5283:36\\u5283:39\\u5283:48\\u5283"},
525 void AlphabeticIndexTest::TestIndexCharactersList() {
526 UErrorCode status
= U_ZERO_ERROR
;
527 for (int32_t i
= 0; i
< UPRV_LENGTHOF(localeAndIndexCharactersLists
); ++i
) {
528 const char *(&localeAndIndexCharacters
)[2] = localeAndIndexCharactersLists
[i
];
529 const char *locale
= localeAndIndexCharacters
[0];
530 UnicodeString expectedIndexCharacters
531 = (UnicodeString("\\u2026:") + localeAndIndexCharacters
[1] + ":\\u2026").unescape();
532 AlphabeticIndex
index(locale
, status
);
534 LocalPointer
<AlphabeticIndex::ImmutableIndex
> immIndex(index
.buildImmutableIndex(status
));
537 // Join the elements of the list to a string with delimiter ":"
538 UnicodeString actualIndexCharacters
;
540 expectedIndexCharacters
,
541 joinLabelsAndAppend(*immIndex
, actualIndexCharacters
));
542 logln(locale
+ UnicodeString(": ") + actualIndexCharacters
);
546 void AlphabeticIndexTest::TestHaniFirst() {
547 UErrorCode status
= U_ZERO_ERROR
;
548 LocalPointer
<RuleBasedCollator
> coll(
549 static_cast<RuleBasedCollator
*>(Collator::createInstance(Locale::getRoot(), status
)));
551 if (U_FAILURE(status
)) {
552 dataerrln("Failed Collator::createInstance call - %s", u_errorName(status
));
555 int32_t reorderCodes
[] = { USCRIPT_HAN
};
556 coll
->setReorderCodes(reorderCodes
, UPRV_LENGTHOF(reorderCodes
), status
);
558 AlphabeticIndex
index(coll
.orphan(), status
);
560 assertEquals("getBucketCount()", 1, index
.getBucketCount(status
)); // ... (underflow only)
561 index
.addLabels(Locale::getEnglish(), status
);
562 assertEquals("getBucketCount()", 28, index
.getBucketCount(status
)); // ... A-Z ...
563 int32_t bucketIndex
= index
.getBucketIndex(UnicodeString((UChar
)0x897f), status
);
564 assertEquals("getBucketIndex(U+897F)", 0, bucketIndex
); // underflow bucket
565 bucketIndex
= index
.getBucketIndex("i", status
);
566 assertEquals("getBucketIndex(i)", 9, bucketIndex
);
567 bucketIndex
= index
.getBucketIndex(UnicodeString((UChar
)0x03B1), status
);
568 assertEquals("getBucketIndex(Greek alpha)", 27, bucketIndex
);
569 // U+50005 is an unassigned code point which sorts at the end, independent of the Hani group.
570 bucketIndex
= index
.getBucketIndex(UnicodeString(0x50005), status
);
571 assertEquals("getBucketIndex(U+50005)", 27, bucketIndex
);
572 bucketIndex
= index
.getBucketIndex(UnicodeString((UChar
)0xFFFF), status
);
573 assertEquals("getBucketIndex(U+FFFF)", 27, bucketIndex
);
576 void AlphabeticIndexTest::TestPinyinFirst() {
577 UErrorCode status
= U_ZERO_ERROR
;
578 LocalPointer
<RuleBasedCollator
> coll(
579 static_cast<RuleBasedCollator
*>(Collator::createInstance(Locale::getChinese(), status
)));
580 if (U_FAILURE(status
)) {
581 dataerrln("Failed Collator::createInstance call - %s", u_errorName(status
));
584 int32_t reorderCodes
[] = { USCRIPT_HAN
};
585 coll
->setReorderCodes(reorderCodes
, UPRV_LENGTHOF(reorderCodes
), status
);
587 AlphabeticIndex
index(coll
.orphan(), status
);
589 assertEquals("getBucketCount()", 28, index
.getBucketCount(status
)); // ... A-Z ...
590 index
.addLabels(Locale::getChinese(), status
);
591 assertEquals("getBucketCount()", 28, index
.getBucketCount(status
)); // ... A-Z ...
592 int32_t bucketIndex
= index
.getBucketIndex(UnicodeString((UChar
)0x897f), status
);
593 assertEquals("getBucketIndex(U+897F)", (int32_t)((UChar
)0x0058/*X*/ - (UChar
)0x0041/*A*/ + 1), bucketIndex
);
594 bucketIndex
= index
.getBucketIndex("i", status
);
595 assertEquals("getBucketIndex(i)", 9, bucketIndex
);
596 bucketIndex
= index
.getBucketIndex(UnicodeString((UChar
)0x03B1), status
);
597 assertEquals("getBucketIndex(Greek alpha)", (int32_t)27, bucketIndex
);
598 // U+50005 is an unassigned code point which sorts at the end, independent of the Hani group.
599 bucketIndex
= index
.getBucketIndex(UnicodeString(0x50005), status
);
600 assertEquals("getBucketIndex(U+50005)", 27, bucketIndex
);
601 bucketIndex
= index
.getBucketIndex(UnicodeString((UChar
)0xFFFF), status
);
602 assertEquals("getBucketIndex(U+FFFF)", 27, bucketIndex
);
605 void AlphabeticIndexTest::TestSchSt() {
606 UErrorCode status
= U_ZERO_ERROR
;
607 AlphabeticIndex
index(Locale::getGerman(), status
);
608 index
.addLabels(UnicodeSet("[\\u00C6{Sch*}{St*}]", status
), status
);
610 // ... A AE-ligature B-R S Sch St T-Z ...
611 LocalPointer
<AlphabeticIndex::ImmutableIndex
> immIndex(index
.buildImmutableIndex(status
));
613 assertEquals("getBucketCount()", 31, index
.getBucketCount(status
));
614 assertEquals("immutable getBucketCount()", 31, immIndex
->getBucketCount());
615 static const struct TestCase
{
618 const char *bucketLabel
;
620 // name, bucket index, bucket label
621 { "Adelbert", 1, "A" },
622 { "Afrika", 1, "A" },
623 { "\\u00C6sculap", 2, "\\u00C6" },
624 { "Aesthet", 2, "\\u00C6" },
625 { "Berlin", 3, "B" },
626 { "Rilke", 19, "R" },
627 { "Sacher", 20, "S" },
628 { "Seiler", 20, "S" },
629 { "Sultan", 20, "S" },
630 { "Schiller", 21, "Sch" },
631 { "Steiff", 22, "St" },
632 { "Thomas", 23, "T" }
634 for (int32_t i
= 0; i
< UPRV_LENGTHOF(testCases
); ++i
) {
635 const TestCase
&testCase
= testCases
[i
];
636 UnicodeString name
= UnicodeString(testCase
.name
).unescape();
637 UnicodeString label
= UnicodeString(testCase
.bucketLabel
).unescape();
639 sprintf(msg
, "getBucketIndex(%s)", testCase
.name
);
640 assertEquals(msg
, testCase
.bucketIndex
, index
.getBucketIndex(name
, status
));
641 sprintf(msg
, "immutable getBucketIndex(%s)", testCase
.name
);
642 assertEquals(msg
, testCase
.bucketIndex
, immIndex
->getBucketIndex(name
, status
));
643 sprintf(msg
, "immutable bucket label (%s)", testCase
.name
);
644 assertEquals(msg
, label
, immIndex
->getBucket(testCase
.bucketIndex
)->getLabel());
648 void AlphabeticIndexTest::TestNoLabels() {
649 UErrorCode status
= U_ZERO_ERROR
;
650 LocalPointer
<RuleBasedCollator
> coll(
651 static_cast<RuleBasedCollator
*>(Collator::createInstance(Locale::getRoot(), status
)));
653 AlphabeticIndex
index(coll
.orphan(), status
);
655 index
.addRecord(UnicodeString((UChar
)0x897f), NULL
, status
);
656 index
.addRecord("i", NULL
, status
);
657 index
.addRecord(UnicodeString((UChar
)0x03B1), NULL
, status
);
658 assertEquals("getBucketCount()", 1, index
.getBucketCount(status
)); // ...
659 TEST_ASSERT(index
.nextBucket(status
));
660 assertEquals("underflow label type", (int32_t)U_ALPHAINDEX_UNDERFLOW
, index
.getBucketLabelType());
661 assertEquals("all records in the underflow bucket", (int32_t)3, index
.getBucketRecordCount());
664 void AlphabeticIndexTest::TestChineseZhuyin() {
665 UErrorCode status
= U_ZERO_ERROR
;
667 uloc_forLanguageTag("zh-u-co-zhuyin", loc
, UPRV_LENGTHOF(loc
), NULL
, &status
);
668 AlphabeticIndex
index(loc
, status
);
669 LocalPointer
<AlphabeticIndex::ImmutableIndex
> immIndex(index
.buildImmutableIndex(status
));
671 assertEquals("getBucketCount()", 38, immIndex
->getBucketCount());
672 assertEquals("label 1", UnicodeString((UChar
)0x3105), immIndex
->getBucket(1)->getLabel());
673 assertEquals("label 2", UnicodeString((UChar
)0x3106), immIndex
->getBucket(2)->getLabel());
674 assertEquals("label 3", UnicodeString((UChar
)0x3107), immIndex
->getBucket(3)->getLabel());
675 assertEquals("label 4", UnicodeString((UChar
)0x3108), immIndex
->getBucket(4)->getLabel());
676 assertEquals("label 5", UnicodeString((UChar
)0x3109), immIndex
->getBucket(5)->getLabel());
679 void AlphabeticIndexTest::TestJapaneseKanji() {
680 UErrorCode status
= U_ZERO_ERROR
;
681 AlphabeticIndex
index(Locale::getJapanese(), status
);
682 LocalPointer
<AlphabeticIndex::ImmutableIndex
> immIndex(index
.buildImmutableIndex(status
));
684 // There are no index characters for Kanji in the Japanese standard collator.
685 // They should all go into the overflow bucket.
686 static const UChar32 kanji
[] = { 0x4E9C, 0x95C7, 0x4E00, 0x58F1 };
687 int32_t overflowIndex
= immIndex
->getBucketCount() - 1;
688 for(int32_t i
= 0; i
< UPRV_LENGTHOF(kanji
); ++i
) {
690 sprintf(msg
, "kanji[%d]=U+%04lX in overflow bucket", (int)i
, (long)kanji
[i
]);
691 assertEquals(msg
, overflowIndex
, immIndex
->getBucketIndex(UnicodeString(kanji
[i
]), status
));
696 void AlphabeticIndexTest::TestChineseUnihan() {
697 UErrorCode status
= U_ZERO_ERROR
;
698 AlphabeticIndex
index("zh-u-co-unihan", status
);
699 if(U_FAILURE(status
)) {
700 dataerrln("unable create an AlphabeticIndex for Chinese/unihan: %s", u_errorName(status
));
703 index
.setMaxLabelCount(500, status
); // ICU 54 default is 99.
704 LocalPointer
<AlphabeticIndex::ImmutableIndex
> immIndex(index
.buildImmutableIndex(status
));
706 int32_t bucketCount
= immIndex
->getBucketCount();
707 if(bucketCount
< 216) {
708 // There should be at least an underflow and overflow label,
709 // and one for each of 214 radicals,
710 // and maybe additional labels for simplified radicals.
711 dataerrln("too few buckets/labels for Chinese/unihan: %d (is zh/unihan data available?)",
715 logln("Chinese/unihan has %d buckets/labels", bucketCount
);
717 // bucketIndex = radical number, adjusted for simplified radicals in lower buckets.
718 int32_t bucketIndex
= index
.getBucketIndex(UnicodeString((UChar
)0x4e5d), status
);
719 assertEquals("getBucketIndex(U+4E5D)", 5, bucketIndex
);
720 // radical 100, and there is a 90' since Unicode 8
721 bucketIndex
= index
.getBucketIndex(UnicodeString((UChar
)0x7527), status
);
722 assertEquals("getBucketIndex(U+7527)", 101, bucketIndex
);