/* ******************************************************************************* * Copyright (C) 2011-2013, International Business Machines Corporation and * * others. All Rights Reserved. * ******************************************************************************* */ #include "unicode/utypes.h" #if !UCONFIG_NO_FORMATTING #include "unicode/locid.h" #include "unicode/tznames.h" #include "unicode/uenum.h" #include "cmemory.h" #include "cstring.h" #include "putilimp.h" #include "tznames_impl.h" #include "uassert.h" #include "ucln_in.h" #include "uhash.h" #include "umutex.h" #include "uvector.h" U_NAMESPACE_BEGIN // TimeZoneNames object cache handling static UMutex gTimeZoneNamesLock = U_MUTEX_INITIALIZER; static UHashtable *gTimeZoneNamesCache = NULL; static UBool gTimeZoneNamesCacheInitialized = FALSE; // Access count - incremented every time up to SWEEP_INTERVAL, // then reset to 0 static int32_t gAccessCount = 0; // Interval for calling the cache sweep function - every 100 times #define SWEEP_INTERVAL 100 // Cache expiration in millisecond. When a cached entry is no // longer referenced and exceeding this threshold since last // access time, then the cache entry will be deleted by the sweep // function. For now, 3 minutes. #define CACHE_EXPIRATION 180000.0 typedef struct TimeZoneNamesCacheEntry { TimeZoneNames* names; int32_t refCount; double lastAccess; } TimeZoneNamesCacheEntry; U_CDECL_BEGIN /** * Cleanup callback func */ static UBool U_CALLCONV timeZoneNames_cleanup(void) { if (gTimeZoneNamesCache != NULL) { uhash_close(gTimeZoneNamesCache); gTimeZoneNamesCache = NULL; } gTimeZoneNamesCacheInitialized = FALSE; return TRUE; } /** * Deleter for TimeZoneNamesCacheEntry */ static void U_CALLCONV deleteTimeZoneNamesCacheEntry(void *obj) { icu::TimeZoneNamesCacheEntry *entry = (icu::TimeZoneNamesCacheEntry*)obj; delete (icu::TimeZoneNamesImpl*) entry->names; uprv_free(entry); } U_CDECL_END /** * Function used for removing unreferrenced cache entries exceeding * the expiration time. This function must be called with in the mutex * block. */ static void sweepCache() { int32_t pos = -1; const UHashElement* elem; double now = (double)uprv_getUTCtime(); while ((elem = uhash_nextElement(gTimeZoneNamesCache, &pos))) { TimeZoneNamesCacheEntry *entry = (TimeZoneNamesCacheEntry *)elem->value.pointer; if (entry->refCount <= 0 && (now - entry->lastAccess) > CACHE_EXPIRATION) { // delete this entry uhash_removeElement(gTimeZoneNamesCache, elem); } } } // --------------------------------------------------- // TimeZoneNamesDelegate // --------------------------------------------------- class TimeZoneNamesDelegate : public TimeZoneNames { public: TimeZoneNamesDelegate(const Locale& locale, UErrorCode& status); virtual ~TimeZoneNamesDelegate(); virtual UBool operator==(const TimeZoneNames& other) const; virtual UBool operator!=(const TimeZoneNames& other) const {return !operator==(other);}; virtual TimeZoneNames* clone() const; StringEnumeration* getAvailableMetaZoneIDs(UErrorCode& status) const; StringEnumeration* getAvailableMetaZoneIDs(const UnicodeString& tzID, UErrorCode& status) const; UnicodeString& getMetaZoneID(const UnicodeString& tzID, UDate date, UnicodeString& mzID) const; UnicodeString& getReferenceZoneID(const UnicodeString& mzID, const char* region, UnicodeString& tzID) const; UnicodeString& getMetaZoneDisplayName(const UnicodeString& mzID, UTimeZoneNameType type, UnicodeString& name) const; UnicodeString& getTimeZoneDisplayName(const UnicodeString& tzID, UTimeZoneNameType type, UnicodeString& name) const; UnicodeString& getExemplarLocationName(const UnicodeString& tzID, UnicodeString& name) const; MatchInfoCollection* find(const UnicodeString& text, int32_t start, uint32_t types, UErrorCode& status) const; private: TimeZoneNamesDelegate(); TimeZoneNamesCacheEntry* fTZnamesCacheEntry; }; TimeZoneNamesDelegate::TimeZoneNamesDelegate() : fTZnamesCacheEntry(0) { } TimeZoneNamesDelegate::TimeZoneNamesDelegate(const Locale& locale, UErrorCode& status) { UBool initialized; UMTX_CHECK(&gTimeZoneNamesLock, gTimeZoneNamesCacheInitialized, initialized); if (!initialized) { // Create empty hashtable umtx_lock(&gTimeZoneNamesLock); { if (!gTimeZoneNamesCacheInitialized) { gTimeZoneNamesCache = uhash_open(uhash_hashChars, uhash_compareChars, NULL, &status); if (U_SUCCESS(status)) { uhash_setKeyDeleter(gTimeZoneNamesCache, uprv_free); uhash_setValueDeleter(gTimeZoneNamesCache, deleteTimeZoneNamesCacheEntry); gTimeZoneNamesCacheInitialized = TRUE; ucln_i18n_registerCleanup(UCLN_I18N_TIMEZONENAMES, timeZoneNames_cleanup); } } } umtx_unlock(&gTimeZoneNamesLock); if (U_FAILURE(status)) { return; } } // Check the cache, if not available, create new one and cache TimeZoneNamesCacheEntry *cacheEntry = NULL; umtx_lock(&gTimeZoneNamesLock); { const char *key = locale.getName(); cacheEntry = (TimeZoneNamesCacheEntry *)uhash_get(gTimeZoneNamesCache, key); if (cacheEntry == NULL) { TimeZoneNames *tznames = NULL; char *newKey = NULL; tznames = new TimeZoneNamesImpl(locale, status); if (tznames == NULL) { status = U_MEMORY_ALLOCATION_ERROR; } if (U_SUCCESS(status)) { newKey = (char *)uprv_malloc(uprv_strlen(key) + 1); if (newKey == NULL) { status = U_MEMORY_ALLOCATION_ERROR; } else { uprv_strcpy(newKey, key); } } if (U_SUCCESS(status)) { cacheEntry = (TimeZoneNamesCacheEntry *)uprv_malloc(sizeof(TimeZoneNamesCacheEntry)); if (cacheEntry == NULL) { status = U_MEMORY_ALLOCATION_ERROR; } else { cacheEntry->names = tznames; cacheEntry->refCount = 1; cacheEntry->lastAccess = (double)uprv_getUTCtime(); uhash_put(gTimeZoneNamesCache, newKey, cacheEntry, &status); } } if (U_FAILURE(status)) { if (tznames != NULL) { delete tznames; } if (newKey != NULL) { uprv_free(newKey); } if (cacheEntry != NULL) { uprv_free(cacheEntry); } cacheEntry = NULL; } } else { // Update the reference count cacheEntry->refCount++; cacheEntry->lastAccess = (double)uprv_getUTCtime(); } gAccessCount++; if (gAccessCount >= SWEEP_INTERVAL) { // sweep sweepCache(); gAccessCount = 0; } } umtx_unlock(&gTimeZoneNamesLock); fTZnamesCacheEntry = cacheEntry; } TimeZoneNamesDelegate::~TimeZoneNamesDelegate() { umtx_lock(&gTimeZoneNamesLock); { if (fTZnamesCacheEntry) { U_ASSERT(fTZnamesCacheEntry->refCount > 0); // Just decrement the reference count fTZnamesCacheEntry->refCount--; } } umtx_unlock(&gTimeZoneNamesLock); } UBool TimeZoneNamesDelegate::operator==(const TimeZoneNames& other) const { if (this == &other) { return TRUE; } // Just compare if the other object also use the same // cache entry const TimeZoneNamesDelegate* rhs = dynamic_cast(&other); if (rhs) { return fTZnamesCacheEntry == rhs->fTZnamesCacheEntry; } return FALSE; } TimeZoneNames* TimeZoneNamesDelegate::clone() const { TimeZoneNamesDelegate* other = new TimeZoneNamesDelegate(); if (other != NULL) { umtx_lock(&gTimeZoneNamesLock); { // Just increment the reference count fTZnamesCacheEntry->refCount++; other->fTZnamesCacheEntry = fTZnamesCacheEntry; } umtx_unlock(&gTimeZoneNamesLock); } return other; } StringEnumeration* TimeZoneNamesDelegate::getAvailableMetaZoneIDs(UErrorCode& status) const { return fTZnamesCacheEntry->names->getAvailableMetaZoneIDs(status); } StringEnumeration* TimeZoneNamesDelegate::getAvailableMetaZoneIDs(const UnicodeString& tzID, UErrorCode& status) const { return fTZnamesCacheEntry->names->getAvailableMetaZoneIDs(tzID, status); } UnicodeString& TimeZoneNamesDelegate::getMetaZoneID(const UnicodeString& tzID, UDate date, UnicodeString& mzID) const { return fTZnamesCacheEntry->names->getMetaZoneID(tzID, date, mzID); } UnicodeString& TimeZoneNamesDelegate::getReferenceZoneID(const UnicodeString& mzID, const char* region, UnicodeString& tzID) const { return fTZnamesCacheEntry->names->getReferenceZoneID(mzID, region, tzID); } UnicodeString& TimeZoneNamesDelegate::getMetaZoneDisplayName(const UnicodeString& mzID, UTimeZoneNameType type, UnicodeString& name) const { return fTZnamesCacheEntry->names->getMetaZoneDisplayName(mzID, type, name); } UnicodeString& TimeZoneNamesDelegate::getTimeZoneDisplayName(const UnicodeString& tzID, UTimeZoneNameType type, UnicodeString& name) const { return fTZnamesCacheEntry->names->getTimeZoneDisplayName(tzID, type, name); } UnicodeString& TimeZoneNamesDelegate::getExemplarLocationName(const UnicodeString& tzID, UnicodeString& name) const { return fTZnamesCacheEntry->names->getExemplarLocationName(tzID, name); } TimeZoneNames::MatchInfoCollection* TimeZoneNamesDelegate::find(const UnicodeString& text, int32_t start, uint32_t types, UErrorCode& status) const { return fTZnamesCacheEntry->names->find(text, start, types, status); } // --------------------------------------------------- // TimeZoneNames base class // --------------------------------------------------- TimeZoneNames::~TimeZoneNames() { } TimeZoneNames* TimeZoneNames::createInstance(const Locale& locale, UErrorCode& status) { return new TimeZoneNamesDelegate(locale, status); } UnicodeString& TimeZoneNames::getExemplarLocationName(const UnicodeString& tzID, UnicodeString& name) const { return TimeZoneNamesImpl::getDefaultExemplarLocationName(tzID, name); } UnicodeString& TimeZoneNames::getDisplayName(const UnicodeString& tzID, UTimeZoneNameType type, UDate date, UnicodeString& name) const { getTimeZoneDisplayName(tzID, type, name); if (name.isEmpty()) { UnicodeString mzID; getMetaZoneID(tzID, date, mzID); getMetaZoneDisplayName(mzID, type, name); } return name; } struct MatchInfo : UMemory { UTimeZoneNameType nameType; UnicodeString id; int32_t matchLength; UBool isTZID; MatchInfo(UTimeZoneNameType nameType, int32_t matchLength, const UnicodeString* tzID, const UnicodeString* mzID) { this->nameType = nameType; this->matchLength = matchLength; if (tzID != NULL) { this->id.setTo(*tzID); this->isTZID = TRUE; } else { this->id.setTo(*mzID); this->isTZID = FALSE; } } }; U_CDECL_BEGIN static void U_CALLCONV deleteMatchInfo(void *obj) { delete static_cast(obj); } U_CDECL_END // --------------------------------------------------- // MatchInfoCollection class // --------------------------------------------------- TimeZoneNames::MatchInfoCollection::MatchInfoCollection() : fMatches(NULL) { } TimeZoneNames::MatchInfoCollection::~MatchInfoCollection() { if (fMatches != NULL) { delete fMatches; } } void TimeZoneNames::MatchInfoCollection::addZone(UTimeZoneNameType nameType, int32_t matchLength, const UnicodeString& tzID, UErrorCode& status) { if (U_FAILURE(status)) { return; } MatchInfo* matchInfo = new MatchInfo(nameType, matchLength, &tzID, NULL); if (matchInfo == NULL) { status = U_MEMORY_ALLOCATION_ERROR; return; } matches(status)->addElement(matchInfo, status); if (U_FAILURE(status)) { delete matchInfo; } } void TimeZoneNames::MatchInfoCollection::addMetaZone(UTimeZoneNameType nameType, int32_t matchLength, const UnicodeString& mzID, UErrorCode& status) { if (U_FAILURE(status)) { return; } MatchInfo* matchInfo = new MatchInfo(nameType, matchLength, NULL, &mzID); if (matchInfo == NULL) { status = U_MEMORY_ALLOCATION_ERROR; return; } matches(status)->addElement(matchInfo, status); if (U_FAILURE(status)) { delete matchInfo; } } int32_t TimeZoneNames::MatchInfoCollection::size() const { if (fMatches == NULL) { return 0; } return fMatches->size(); } UTimeZoneNameType TimeZoneNames::MatchInfoCollection::getNameTypeAt(int32_t idx) const { const MatchInfo* match = (const MatchInfo*)fMatches->elementAt(idx); if (match) { return match->nameType; } return UTZNM_UNKNOWN; } int32_t TimeZoneNames::MatchInfoCollection::getMatchLengthAt(int32_t idx) const { const MatchInfo* match = (const MatchInfo*)fMatches->elementAt(idx); if (match) { return match->matchLength; } return 0; } UBool TimeZoneNames::MatchInfoCollection::getTimeZoneIDAt(int32_t idx, UnicodeString& tzID) const { tzID.remove(); const MatchInfo* match = (const MatchInfo*)fMatches->elementAt(idx); if (match && match->isTZID) { tzID.setTo(match->id); return TRUE; } return FALSE; } UBool TimeZoneNames::MatchInfoCollection::getMetaZoneIDAt(int32_t idx, UnicodeString& mzID) const { mzID.remove(); const MatchInfo* match = (const MatchInfo*)fMatches->elementAt(idx); if (match && !match->isTZID) { mzID.setTo(match->id); return TRUE; } return FALSE; } UVector* TimeZoneNames::MatchInfoCollection::matches(UErrorCode& status) { if (U_FAILURE(status)) { return NULL; } if (fMatches != NULL) { return fMatches; } fMatches = new UVector(deleteMatchInfo, NULL, status); if (fMatches == NULL) { status = U_MEMORY_ALLOCATION_ERROR; } else if (U_FAILURE(status)) { delete fMatches; fMatches = NULL; } return fMatches; } U_NAMESPACE_END #endif