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1/*
2*******************************************************************************
2ca993e8 3* Copyright (C) 2015, International Business Machines Corporation and *
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4* others. All Rights Reserved. *
5*******************************************************************************
6*
7* File UNIFIEDCACHETEST.CPP
8*
9********************************************************************************
10*/
11#include "cstring.h"
12#include "intltest.h"
13#include "unifiedcache.h"
2ca993e8 14#include "unicode/datefmt.h"
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15
16class UCTItem : public SharedObject {
17 public:
18 char *value;
19 UCTItem(const char *x) : value(NULL) {
20 value = uprv_strdup(x);
21 }
22 virtual ~UCTItem() {
23 uprv_free(value);
24 }
25};
26
27class UCTItem2 : public SharedObject {
28};
29
30U_NAMESPACE_BEGIN
31
32template<> U_EXPORT
33const UCTItem *LocaleCacheKey<UCTItem>::createObject(
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34 const void *context, UErrorCode &status) const {
35 const UnifiedCache *cacheContext = (const UnifiedCache *) context;
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36 if (uprv_strcmp(fLoc.getName(), "zh") == 0) {
37 status = U_MISSING_RESOURCE_ERROR;
38 return NULL;
39 }
40 if (uprv_strcmp(fLoc.getLanguage(), fLoc.getName()) != 0) {
41 const UCTItem *item = NULL;
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42 if (cacheContext == NULL) {
43 UnifiedCache::getByLocale(fLoc.getLanguage(), item, status);
44 } else {
45 cacheContext->get(LocaleCacheKey<UCTItem>(fLoc.getLanguage()), item, status);
46 }
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47 if (U_FAILURE(status)) {
48 return NULL;
49 }
50 return item;
51 }
52 UCTItem *result = new UCTItem(fLoc.getName());
53 result->addRef();
54 return result;
55}
56
57template<> U_EXPORT
58const UCTItem2 *LocaleCacheKey<UCTItem2>::createObject(
59 const void * /*unused*/, UErrorCode & /*status*/) const {
60 return NULL;
61}
62
63U_NAMESPACE_END
64
65
66class UnifiedCacheTest : public IntlTest {
67public:
68 UnifiedCacheTest() {
69 }
70 void runIndexedTest(int32_t index, UBool exec, const char *&name, char *par=0);
71private:
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72 void TestEvictionPolicy();
73 void TestBounded();
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74 void TestBasic();
75 void TestError();
76 void TestHashEquals();
2ca993e8 77 void TestEvictionUnderStress();
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78};
79
80void UnifiedCacheTest::runIndexedTest(int32_t index, UBool exec, const char* &name, char* /*par*/) {
81 TESTCASE_AUTO_BEGIN;
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82 TESTCASE_AUTO(TestEvictionPolicy);
83 TESTCASE_AUTO(TestBounded);
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84 TESTCASE_AUTO(TestBasic);
85 TESTCASE_AUTO(TestError);
86 TESTCASE_AUTO(TestHashEquals);
2ca993e8 87 TESTCASE_AUTO(TestEvictionUnderStress);
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88 TESTCASE_AUTO_END;
89}
90
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91void UnifiedCacheTest::TestEvictionUnderStress() {
92#if !UCONFIG_NO_FORMATTING
93 int32_t localeCount;
94 const Locale *locales = DateFormat::getAvailableLocales(localeCount);
95 UErrorCode status = U_ZERO_ERROR;
96 const UnifiedCache *cache = UnifiedCache::getInstance(status);
97 int64_t evictedCountBefore = cache->autoEvictedCount();
98 for (int32_t i = 0; i < localeCount; ++i) {
99 LocalPointer<DateFormat> ptr(DateFormat::createInstanceForSkeleton("yMd", locales[i], status));
100 }
101 int64_t evictedCountAfter = cache->autoEvictedCount();
102 if (evictedCountBefore == evictedCountAfter) {
103 dataerrln("%s:%d Items should have been evicted from cache",
104 __FILE__, __LINE__);
105 }
106#endif /* #if !UCONFIG_NO_FORMATTING */
107}
108
109void UnifiedCacheTest::TestEvictionPolicy() {
110 UErrorCode status = U_ZERO_ERROR;
111
112 // We have to call this first or else calling the UnifiedCache
113 // ctor will fail. This is by design to deter clients from using the
114 // cache API incorrectly by creating their own cache instances.
115 UnifiedCache::getInstance(status);
116
117 // We create our own local UnifiedCache instance to ensure we have
118 // complete control over it. Real clients should never ever create
119 // their own cache!
120 UnifiedCache cache(status);
121 assertSuccess("", status);
122
123 // Don't allow unused entries to exeed more than 100% of in use entries.
124 cache.setEvictionPolicy(0, 100, status);
125
126 static const char *locales[] = {
127 "1", "2", "3", "4", "5", "6", "7", "8", "9", "10",
128 "11", "12", "13", "14", "15", "16", "17", "18", "19", "20"};
129
130 const UCTItem *usedReferences[] = {NULL, NULL, NULL, NULL, NULL};
131 const UCTItem *unusedReference = NULL;
132
133 // Add 5 in-use entries
134 for (int32_t i = 0; i < UPRV_LENGTHOF(usedReferences); i++) {
135 cache.get(
136 LocaleCacheKey<UCTItem>(locales[i]),
137 &cache,
138 usedReferences[i],
139 status);
140 }
141
142 // Add 10 not in use entries.
143 for (int32_t i = 0; i < 10; ++i) {
144 cache.get(
145 LocaleCacheKey<UCTItem>(
146 locales[i + UPRV_LENGTHOF(usedReferences)]),
147 &cache,
148 unusedReference,
149 status);
150 }
151 unusedReference->removeRef();
152
153 // unused count not to exeed in use count
154 assertEquals("", UPRV_LENGTHOF(usedReferences), cache.unusedCount());
155 assertEquals("", 2*UPRV_LENGTHOF(usedReferences), cache.keyCount());
156
157 // Free up those used entries.
158 for (int32_t i = 0; i < UPRV_LENGTHOF(usedReferences); i++) {
159 usedReferences[i]->removeRef();
160 }
161
162 // This should free up all cache items
163 assertEquals("", 0, cache.keyCount());
164
165 assertSuccess("", status);
166}
167
168
169
170void UnifiedCacheTest::TestBounded() {
171 UErrorCode status = U_ZERO_ERROR;
172
173 // We have to call this first or else calling the UnifiedCache
174 // ctor will fail. This is by design to deter clients from using the
175 // cache API incorrectly by creating their own cache instances.
176 UnifiedCache::getInstance(status);
177
178 // We create our own local UnifiedCache instance to ensure we have
179 // complete control over it. Real clients should never ever create
180 // their own cache!
181 UnifiedCache cache(status);
182 assertSuccess("", status);
183
184 // Maximum unused count is 3.
185 cache.setEvictionPolicy(3, 0, status);
186
187 // Our cache will hold up to 3 unused key-value pairs
188 // We test the following invariants:
189 // 1. unusedCount <= 3
190 // 2. cache->get(X) always returns the same reference as long as caller
191 // already holds references to that same object.
192
193 // We first add 5 key-value pairs with two distinct values, "en" and "fr"
194 // keeping all those references.
195
196 const UCTItem *en = NULL;
197 const UCTItem *enGb = NULL;
198 const UCTItem *enUs = NULL;
199 const UCTItem *fr = NULL;
200 const UCTItem *frFr = NULL;
201 cache.get(LocaleCacheKey<UCTItem>("en_US"), &cache, enUs, status);
202 cache.get(LocaleCacheKey<UCTItem>("en"), &cache, en, status);
203 assertEquals("", 1, cache.unusedCount());
204 cache.get(LocaleCacheKey<UCTItem>("en_GB"), &cache, enGb, status);
205 cache.get(LocaleCacheKey<UCTItem>("fr_FR"), &cache, frFr, status);
206 cache.get(LocaleCacheKey<UCTItem>("fr"), &cache, fr, status);
207
208 // Client holds two unique references, "en" and "fr" the other three
209 // entries are eligible for eviction.
210 assertEquals("", 3, cache.unusedCount());
211 assertEquals("", 5, cache.keyCount());
212
213 // Exercise cache more but don't hold the references except for
214 // the last one. At the end of this, we will hold references to one
215 // additional distinct value, so we will have references to 3 distinct
216 // values.
217 const UCTItem *throwAway = NULL;
218 cache.get(LocaleCacheKey<UCTItem>("zn_AA"), &cache, throwAway, status);
219 cache.get(LocaleCacheKey<UCTItem>("sr_AA"), &cache, throwAway, status);
220 cache.get(LocaleCacheKey<UCTItem>("de_AU"), &cache, throwAway, status);
221
222 const UCTItem *deAu(throwAway);
223 deAu->addRef();
224
225 // Client holds three unique references, "en", "fr", "de" although we
226 // could have a total of 8 entries in the cache maxUnusedCount == 3
227 // so we have only 6 entries.
228 assertEquals("", 3, cache.unusedCount());
229 assertEquals("", 6, cache.keyCount());
230
231 // For all the references we have, cache must continue to return
232 // those same references (#2)
233
234 cache.get(LocaleCacheKey<UCTItem>("en"), &cache, throwAway, status);
235 if (throwAway != en) {
236 errln("Expected en to resolve to the same object.");
237 }
238 cache.get(LocaleCacheKey<UCTItem>("en_US"), &cache, throwAway, status);
239 if (throwAway != enUs) {
240 errln("Expected enUs to resolve to the same object.");
241 }
242 cache.get(LocaleCacheKey<UCTItem>("en_GB"), &cache, throwAway, status);
243 if (throwAway != enGb) {
244 errln("Expected enGb to resolve to the same object.");
245 }
246 cache.get(LocaleCacheKey<UCTItem>("fr_FR"), &cache, throwAway, status);
247 if (throwAway != frFr) {
248 errln("Expected frFr to resolve to the same object.");
249 }
250 cache.get(LocaleCacheKey<UCTItem>("fr_FR"), &cache, throwAway, status);
251 cache.get(LocaleCacheKey<UCTItem>("fr"), &cache, throwAway, status);
252 if (throwAway != fr) {
253 errln("Expected fr to resolve to the same object.");
254 }
255 cache.get(LocaleCacheKey<UCTItem>("de_AU"), &cache, throwAway, status);
256 if (throwAway != deAu) {
257 errln("Expected deAu to resolve to the same object.");
258 }
259
260 assertEquals("", 3, cache.unusedCount());
261 assertEquals("", 6, cache.keyCount());
262
263 // Now we hold a references to two more distinct values. Cache size
264 // should grow to 8.
265 const UCTItem *es = NULL;
266 const UCTItem *ru = NULL;
267 cache.get(LocaleCacheKey<UCTItem>("es"), &cache, es, status);
268 cache.get(LocaleCacheKey<UCTItem>("ru"), &cache, ru, status);
269 assertEquals("", 3, cache.unusedCount());
270 assertEquals("", 8, cache.keyCount());
271
272 // Now release all the references we hold except for
273 // es, ru, and en
274 SharedObject::clearPtr(enGb);
275 SharedObject::clearPtr(enUs);
276 SharedObject::clearPtr(fr);
277 SharedObject::clearPtr(frFr);
278 SharedObject::clearPtr(deAu);
279 SharedObject::clearPtr(es);
280 SharedObject::clearPtr(ru);
281 SharedObject::clearPtr(en);
282 SharedObject::clearPtr(throwAway);
283
284 // Size of cache should magically drop to 3.
285 assertEquals("", 3, cache.unusedCount());
286 assertEquals("", 3, cache.keyCount());
287
288 // Be sure nothing happens setting the eviction policy in the middle of
289 // a run.
290 cache.setEvictionPolicy(3, 0, status);
291 assertSuccess("", status);
292
293}
294
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295void UnifiedCacheTest::TestBasic() {
296 UErrorCode status = U_ZERO_ERROR;
297 const UnifiedCache *cache = UnifiedCache::getInstance(status);
298 assertSuccess("", status);
299 cache->flush();
300 int32_t baseCount = cache->keyCount();
301 const UCTItem *en = NULL;
302 const UCTItem *enGb = NULL;
303 const UCTItem *enGb2 = NULL;
304 const UCTItem *enUs = NULL;
305 const UCTItem *fr = NULL;
306 const UCTItem *frFr = NULL;
307 cache->get(LocaleCacheKey<UCTItem>("en"), en, status);
308 cache->get(LocaleCacheKey<UCTItem>("en_US"), enUs, status);
309 cache->get(LocaleCacheKey<UCTItem>("en_GB"), enGb, status);
310 cache->get(LocaleCacheKey<UCTItem>("fr_FR"), frFr, status);
311 cache->get(LocaleCacheKey<UCTItem>("fr"), fr, status);
312 cache->get(LocaleCacheKey<UCTItem>("en_GB"), enGb2, status);
313 SharedObject::clearPtr(enGb2);
314 if (enGb != enUs) {
315 errln("Expected en_GB and en_US to resolve to same object.");
316 }
317 if (fr != frFr) {
318 errln("Expected fr and fr_FR to resolve to same object.");
319 }
320 if (enGb == fr) {
321 errln("Expected en_GB and fr to return different objects.");
322 }
323 assertSuccess("", status);
324 // en_US, en_GB, en share one object; fr_FR and fr don't share.
325 // 5 keys in all.
326 assertEquals("", baseCount + 5, cache->keyCount());
327 SharedObject::clearPtr(enGb);
328 cache->flush();
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329
330 // Only 2 unique values in the cache. flushing trims cache down
331 // to this minimum size.
332 assertEquals("", baseCount + 2, cache->keyCount());
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333 SharedObject::clearPtr(enUs);
334 SharedObject::clearPtr(en);
335 cache->flush();
336 // With en_GB and en_US and en cleared there are no more hard references to
337 // the "en" object, so it gets flushed and the keys that refer to it
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338 // get removed from the cache. Now we have just one unique value, fr, in
339 // the cache
340 assertEquals("", baseCount + 1, cache->keyCount());
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341 SharedObject::clearPtr(fr);
342 cache->flush();
2ca993e8 343 assertEquals("", baseCount + 1, cache->keyCount());
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344 SharedObject::clearPtr(frFr);
345 cache->flush();
346 assertEquals("", baseCount + 0, cache->keyCount());
2ca993e8 347 assertSuccess("", status);
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348}
349
350void UnifiedCacheTest::TestError() {
351 UErrorCode status = U_ZERO_ERROR;
352 const UnifiedCache *cache = UnifiedCache::getInstance(status);
353 assertSuccess("", status);
354 cache->flush();
355 int32_t baseCount = cache->keyCount();
356 const UCTItem *zh = NULL;
357 const UCTItem *zhTw = NULL;
358 const UCTItem *zhHk = NULL;
359
360 status = U_ZERO_ERROR;
361 cache->get(LocaleCacheKey<UCTItem>("zh"), zh, status);
362 if (status != U_MISSING_RESOURCE_ERROR) {
363 errln("Expected U_MISSING_RESOURCE_ERROR");
364 }
365 status = U_ZERO_ERROR;
366 cache->get(LocaleCacheKey<UCTItem>("zh_TW"), zhTw, status);
367 if (status != U_MISSING_RESOURCE_ERROR) {
368 errln("Expected U_MISSING_RESOURCE_ERROR");
369 }
370 status = U_ZERO_ERROR;
371 cache->get(LocaleCacheKey<UCTItem>("zh_HK"), zhHk, status);
372 if (status != U_MISSING_RESOURCE_ERROR) {
373 errln("Expected U_MISSING_RESOURCE_ERROR");
374 }
375 // 3 keys in cache zh, zhTW, zhHk all pointing to error placeholders
376 assertEquals("", baseCount + 3, cache->keyCount());
377 cache->flush();
378 // error placeholders have no hard references so they always get flushed.
379 assertEquals("", baseCount + 0, cache->keyCount());
380}
381
382void UnifiedCacheTest::TestHashEquals() {
383 LocaleCacheKey<UCTItem> key1("en_US");
384 LocaleCacheKey<UCTItem> key2("en_US");
385 LocaleCacheKey<UCTItem> diffKey1("en_UT");
386 LocaleCacheKey<UCTItem2> diffKey2("en_US");
387 assertTrue("", key1.hashCode() == key2.hashCode());
388 assertTrue("", key1.hashCode() != diffKey1.hashCode());
389 assertTrue("", key1.hashCode() != diffKey2.hashCode());
390 assertTrue("", diffKey1.hashCode() != diffKey2.hashCode());
391 assertTrue("", key1 == key2);
392 assertTrue("", key1 != diffKey1);
393 assertTrue("", key1 != diffKey2);
394 assertTrue("", diffKey1 != diffKey2);
395}
396
397extern IntlTest *createUnifiedCacheTest() {
398 return new UnifiedCacheTest();
399}