/* ******************************************************************************* * Copyright (C) 2011, International Business Machines Corporation and * * others. All Rights Reserved. * ******************************************************************************* */ #include "unicode/utypes.h" #if !UCONFIG_NO_FORMATTING #include "tzgnames.h" #include "unicode/basictz.h" #include "unicode/locdspnm.h" #include "unicode/msgfmt.h" #include "unicode/rbtz.h" #include "unicode/simpletz.h" #include "unicode/vtzone.h" #include "cmemory.h" #include "cstring.h" #include "uhash.h" #include "uassert.h" #include "umutex.h" #include "uresimp.h" #include "ureslocs.h" #include "zonemeta.h" #include "tznames_impl.h" #include "olsontz.h" U_NAMESPACE_BEGIN #define ZID_KEY_MAX 128 static const char gZoneStrings[] = "zoneStrings"; static const char gRegionFormatTag[] = "regionFormat"; static const char gFallbackRegionFormatTag[] = "fallbackRegionFormat"; static const char gFallbackFormatTag[] = "fallbackFormat"; static const UChar gEmpty[] = {0x00}; static const UChar gDefRegionPattern[] = {0x7B, 0x30, 0x7D, 0x00}; // "{0}" static const UChar gDefFallbackRegionPattern[] = {0x7B, 0x31, 0x7D, 0x20, 0x28, 0x7B, 0x30, 0x7D, 0x29, 0x00}; // "{1} ({0})" static const UChar gDefFallbackPattern[] = {0x7B, 0x31, 0x7D, 0x20, 0x28, 0x7B, 0x30, 0x7D, 0x29, 0x00}; // "{1} ({0})" static const double kDstCheckRange = (double)184*U_MILLIS_PER_DAY; U_CDECL_BEGIN typedef struct PartialLocationKey { const UChar* tzID; const UChar* mzID; UBool isLong; } PartialLocationKey; /** * Hash function for partial location name hash key */ static int32_t U_CALLCONV hashPartialLocationKey(const UHashTok key) { // &#[L|S] PartialLocationKey *p = (PartialLocationKey *)key.pointer; UnicodeString str(p->tzID); str.append((UChar)0x26) .append(p->mzID) .append((UChar)0x23) .append((UChar)(p->isLong ? 0x4C : 0x53)); return uhash_hashUCharsN(str.getBuffer(), str.length()); } /** * Comparer for partial location name hash key */ static UBool U_CALLCONV comparePartialLocationKey(const UHashTok key1, const UHashTok key2) { PartialLocationKey *p1 = (PartialLocationKey *)key1.pointer; PartialLocationKey *p2 = (PartialLocationKey *)key2.pointer; if (p1 == p2) { return TRUE; } if (p1 == NULL || p2 == NULL) { return FALSE; } // We just check identity of tzID/mzID return (p1->tzID == p2->tzID && p1->mzID == p2->mzID && p1->isLong == p2->isLong); } /** * Deleter for GNameInfo */ static void U_CALLCONV deleteGNameInfo(void *obj) { uprv_free(obj); } /** * GNameInfo stores zone name information in the local trie */ typedef struct GNameInfo { UTimeZoneGenericNameType type; const UChar* tzID; } ZNameInfo; /** * GMatchInfo stores zone name match information used by find method */ typedef struct GMatchInfo { const GNameInfo* gnameInfo; int32_t matchLength; UTimeZoneTimeType timeType; } ZMatchInfo; U_CDECL_END // --------------------------------------------------- // The class stores time zone generic name match information // --------------------------------------------------- TimeZoneGenericNameMatchInfo::TimeZoneGenericNameMatchInfo(UVector* matches) : fMatches(matches) { } TimeZoneGenericNameMatchInfo::~TimeZoneGenericNameMatchInfo() { if (fMatches != NULL) { delete fMatches; } } int32_t TimeZoneGenericNameMatchInfo::size() const { if (fMatches == NULL) { return 0; } return fMatches->size(); } UTimeZoneGenericNameType TimeZoneGenericNameMatchInfo::getGenericNameType(int32_t index) const { GMatchInfo *minfo = (GMatchInfo *)fMatches->elementAt(index); if (minfo != NULL) { return static_cast(minfo->gnameInfo->type); } return UTZGNM_UNKNOWN; } int32_t TimeZoneGenericNameMatchInfo::getMatchLength(int32_t index) const { ZMatchInfo *minfo = (ZMatchInfo *)fMatches->elementAt(index); if (minfo != NULL) { return minfo->matchLength; } return -1; } UnicodeString& TimeZoneGenericNameMatchInfo::getTimeZoneID(int32_t index, UnicodeString& tzID) const { GMatchInfo *minfo = (GMatchInfo *)fMatches->elementAt(index); if (minfo != NULL && minfo->gnameInfo->tzID != NULL) { tzID.setTo(TRUE, minfo->gnameInfo->tzID, -1); } else { tzID.setToBogus(); } return tzID; } // --------------------------------------------------- // GNameSearchHandler // --------------------------------------------------- class GNameSearchHandler : public TextTrieMapSearchResultHandler { public: GNameSearchHandler(uint32_t types); virtual ~GNameSearchHandler(); UBool handleMatch(int32_t matchLength, const CharacterNode *node, UErrorCode &status); UVector* getMatches(int32_t& maxMatchLen); private: uint32_t fTypes; UVector* fResults; int32_t fMaxMatchLen; }; GNameSearchHandler::GNameSearchHandler(uint32_t types) : fTypes(types), fResults(NULL), fMaxMatchLen(0) { } GNameSearchHandler::~GNameSearchHandler() { if (fResults != NULL) { delete fResults; } } UBool GNameSearchHandler::handleMatch(int32_t matchLength, const CharacterNode *node, UErrorCode &status) { if (U_FAILURE(status)) { return FALSE; } if (node->hasValues()) { int32_t valuesCount = node->countValues(); for (int32_t i = 0; i < valuesCount; i++) { GNameInfo *nameinfo = (ZNameInfo *)node->getValue(i); if (nameinfo == NULL) { break; } if ((nameinfo->type & fTypes) != 0) { // matches a requested type if (fResults == NULL) { fResults = new UVector(uhash_freeBlock, NULL, status); if (fResults == NULL) { status = U_MEMORY_ALLOCATION_ERROR; } } if (U_SUCCESS(status)) { GMatchInfo *gmatch = (GMatchInfo *)uprv_malloc(sizeof(GMatchInfo)); if (gmatch == NULL) { status = U_MEMORY_ALLOCATION_ERROR; } else { // add the match to the vector gmatch->gnameInfo = nameinfo; gmatch->matchLength = matchLength; gmatch->timeType = UTZFMT_TIME_TYPE_UNKNOWN; fResults->addElement(gmatch, status); if (U_FAILURE(status)) { uprv_free(gmatch); } else { if (matchLength > fMaxMatchLen) { fMaxMatchLen = matchLength; } } } } } } } return TRUE; } UVector* GNameSearchHandler::getMatches(int32_t& maxMatchLen) { // give the ownership to the caller UVector *results = fResults; maxMatchLen = fMaxMatchLen; // reset fResults = NULL; fMaxMatchLen = 0; return results; } // --------------------------------------------------- // TimeZoneGenericNames // // TimeZoneGenericNames is parallel to TimeZoneNames, // but handles run-time generated time zone names. // This is the main part of this module. // --------------------------------------------------- TimeZoneGenericNames::TimeZoneGenericNames(const Locale& locale, UErrorCode& status) : fLocale(locale), fLock(NULL), fTimeZoneNames(NULL), fLocationNamesMap(NULL), fPartialLocationNamesMap(NULL), fRegionFormat(NULL), fFallbackRegionFormat(NULL), fFallbackFormat(NULL), fLocaleDisplayNames(NULL), fStringPool(status), fGNamesTrie(TRUE, deleteGNameInfo), fGNamesTrieFullyLoaded(FALSE) { initialize(locale, status); } TimeZoneGenericNames::~TimeZoneGenericNames() { cleanup(); umtx_destroy(&fLock); } void TimeZoneGenericNames::initialize(const Locale& locale, UErrorCode& status) { if (U_FAILURE(status)) { return; } // TimeZoneNames fTimeZoneNames = TimeZoneNames::createInstance(locale, status); if (U_FAILURE(status)) { return; } // Initialize format patterns UnicodeString rpat(TRUE, gDefRegionPattern, -1); UnicodeString frpat(TRUE, gDefFallbackRegionPattern, -1); UnicodeString fpat(TRUE, gDefFallbackPattern, -1); UErrorCode tmpsts = U_ZERO_ERROR; // OK with fallback warning.. UResourceBundle *zoneStrings = ures_open(U_ICUDATA_ZONE, locale.getName(), &tmpsts); zoneStrings = ures_getByKeyWithFallback(zoneStrings, gZoneStrings, zoneStrings, &tmpsts); if (U_SUCCESS(tmpsts)) { const UChar *regionPattern = ures_getStringByKeyWithFallback(zoneStrings, gRegionFormatTag, NULL, &tmpsts); if (U_SUCCESS(tmpsts) && u_strlen(regionPattern) > 0) { rpat.setTo(regionPattern); } tmpsts = U_ZERO_ERROR; const UChar *fallbackRegionPattern = ures_getStringByKeyWithFallback(zoneStrings, gFallbackRegionFormatTag, NULL, &tmpsts); if (U_SUCCESS(tmpsts) && u_strlen(fallbackRegionPattern) > 0) { frpat.setTo(fallbackRegionPattern); } tmpsts = U_ZERO_ERROR; const UChar *fallbackPattern = ures_getStringByKeyWithFallback(zoneStrings, gFallbackFormatTag, NULL, &tmpsts); if (U_SUCCESS(tmpsts) && u_strlen(fallbackPattern) > 0) { fpat.setTo(fallbackPattern); } } ures_close(zoneStrings); fRegionFormat = new MessageFormat(rpat, status); if (fRegionFormat == NULL) { status = U_MEMORY_ALLOCATION_ERROR; } fFallbackRegionFormat = new MessageFormat(frpat, status); if (fFallbackRegionFormat == NULL) { status = U_MEMORY_ALLOCATION_ERROR; } fFallbackFormat = new MessageFormat(fpat, status); if (fFallbackFormat == NULL) { status = U_MEMORY_ALLOCATION_ERROR; } if (U_FAILURE(status)) { cleanup(); return; } // locale display names fLocaleDisplayNames = LocaleDisplayNames::createInstance(locale); // hash table for names - no key/value deleters fLocationNamesMap = uhash_open(uhash_hashUChars, uhash_compareUChars, NULL, &status); if (U_FAILURE(status)) { cleanup(); return; } fPartialLocationNamesMap = uhash_open(hashPartialLocationKey, comparePartialLocationKey, NULL, &status); if (U_FAILURE(status)) { cleanup(); return; } uhash_setKeyDeleter(fPartialLocationNamesMap, uhash_freeBlock); // no value deleter // target region const char* region = fLocale.getCountry(); int32_t regionLen = uprv_strlen(region); if (regionLen == 0) { char loc[ULOC_FULLNAME_CAPACITY]; uloc_addLikelySubtags(fLocale.getName(), loc, sizeof(loc), &status); regionLen = uloc_getCountry(loc, fTargetRegion, sizeof(fTargetRegion), &status); if (U_SUCCESS(status)) { fTargetRegion[regionLen] = 0; } else { cleanup(); return; } } else if (regionLen < (int32_t)sizeof(fTargetRegion)) { uprv_strcpy(fTargetRegion, region); } else { fTargetRegion[0] = 0; } // preload generic names for the default zone TimeZone *tz = TimeZone::createDefault(); const UChar *tzID = ZoneMeta::getCanonicalCLDRID(*tz); if (tzID != NULL) { loadStrings(UnicodeString(tzID)); } delete tz; } void TimeZoneGenericNames::cleanup() { if (fRegionFormat != NULL) { delete fRegionFormat; } if (fFallbackRegionFormat != NULL) { delete fFallbackRegionFormat; } if (fFallbackFormat != NULL) { delete fFallbackFormat; } if (fLocaleDisplayNames != NULL) { delete fLocaleDisplayNames; } if (fTimeZoneNames != NULL) { delete fTimeZoneNames; } uhash_close(fLocationNamesMap); uhash_close(fPartialLocationNamesMap); } UnicodeString& TimeZoneGenericNames::getDisplayName(const TimeZone& tz, UTimeZoneGenericNameType type, UDate date, UnicodeString& name) const { name.setToBogus(); switch (type) { case UTZGNM_LOCATION: { const UChar* tzCanonicalID = ZoneMeta::getCanonicalCLDRID(tz); if (tzCanonicalID != NULL) { getGenericLocationName(UnicodeString(tzCanonicalID), name); } } break; case UTZGNM_LONG: case UTZGNM_SHORT: formatGenericNonLocationName(tz, type, date, name); if (name.isEmpty()) { const UChar* tzCanonicalID = ZoneMeta::getCanonicalCLDRID(tz); if (tzCanonicalID != NULL) { getGenericLocationName(UnicodeString(tzCanonicalID), name); } } break; default: break; } return name; } UnicodeString& TimeZoneGenericNames::getGenericLocationName(const UnicodeString& tzCanonicalID, UnicodeString& name) const { if (tzCanonicalID.isEmpty()) { name.setToBogus(); return name; } const UChar *locname = NULL; TimeZoneGenericNames *nonConstThis = const_cast(this); umtx_lock(&nonConstThis->fLock); { locname = nonConstThis->getGenericLocationName(tzCanonicalID); } umtx_unlock(&nonConstThis->fLock); if (locname == NULL) { name.setToBogus(); } else { name.setTo(TRUE, locname, -1); } return name; } /* * This method updates the cache and must be called with a lock */ const UChar* TimeZoneGenericNames::getGenericLocationName(const UnicodeString& tzCanonicalID) { U_ASSERT(!tzCanonicalID.isEmpty()); if (tzCanonicalID.length() > ZID_KEY_MAX) { return NULL; } UErrorCode status = U_ZERO_ERROR; UChar tzIDKey[ZID_KEY_MAX + 1]; int32_t tzIDKeyLen = tzCanonicalID.extract(tzIDKey, ZID_KEY_MAX + 1, status); U_ASSERT(status == U_ZERO_ERROR); // already checked length above tzIDKey[tzIDKeyLen] = 0; const UChar *locname = (const UChar *)uhash_get(fLocationNamesMap, tzIDKey); if (locname != NULL) { // gEmpty indicate the name is not available if (locname == gEmpty) { return NULL; } return locname; } // Construct location name UnicodeString name; UBool isSingleCountry = FALSE; UnicodeString usCountryCode; ZoneMeta::getSingleCountry(tzCanonicalID, usCountryCode); if (!usCountryCode.isEmpty()) { isSingleCountry = TRUE; } else { ZoneMeta::getCanonicalCountry(tzCanonicalID, usCountryCode); } if (!usCountryCode.isEmpty()) { char countryCode[ULOC_COUNTRY_CAPACITY]; U_ASSERT(usCountryCode.length() < ULOC_COUNTRY_CAPACITY); int32_t ccLen = usCountryCode.extract(0, usCountryCode.length(), countryCode, sizeof(countryCode), US_INV); countryCode[ccLen] = 0; UnicodeString country; fLocaleDisplayNames->regionDisplayName(countryCode, country); // Format FieldPosition fpos; if (isSingleCountry) { // If the zone is only one zone in the country, do not add city Formattable param[] = { Formattable(country) }; fRegionFormat->format(param, 1, name, fpos, status); } else { // getExemplarLocationName should retur non-empty string // if the time zone is associated with a region UnicodeString city; fTimeZoneNames->getExemplarLocationName(tzCanonicalID, city); Formattable params[] = { Formattable(city), Formattable(country) }; fFallbackRegionFormat->format(params, 2, name, fpos, status); } if (U_FAILURE(status)) { return NULL; } } locname = name.isEmpty() ? NULL : fStringPool.get(name, status); if (U_SUCCESS(status)) { // Cache the result const UChar* cacheID = ZoneMeta::findTimeZoneID(tzCanonicalID); U_ASSERT(cacheID != NULL); if (locname == NULL) { // gEmpty to indicate - no location name available uhash_put(fLocationNamesMap, (void *)cacheID, (void *)gEmpty, &status); } else { uhash_put(fLocationNamesMap, (void *)cacheID, (void *)locname, &status); if (U_FAILURE(status)) { locname = NULL; } else { // put the name info into the trie GNameInfo *nameinfo = (ZNameInfo *)uprv_malloc(sizeof(GNameInfo)); if (nameinfo != NULL) { nameinfo->type = UTZGNM_LOCATION; nameinfo->tzID = cacheID; fGNamesTrie.put(locname, nameinfo, status); } } } } return locname; } UnicodeString& TimeZoneGenericNames::formatGenericNonLocationName(const TimeZone& tz, UTimeZoneGenericNameType type, UDate date, UnicodeString& name) const { U_ASSERT(type == UTZGNM_LONG || type == UTZGNM_SHORT); name.setToBogus(); const UChar* uID = ZoneMeta::getCanonicalCLDRID(tz); if (uID == NULL) { return name; } UnicodeString tzID(uID); // Try to get a name from time zone first UTimeZoneNameType nameType = (type == UTZGNM_LONG) ? UTZNM_LONG_GENERIC : UTZNM_SHORT_GENERIC; fTimeZoneNames->getTimeZoneDisplayName(tzID, nameType, name); if (!name.isEmpty()) { return name; } // Try meta zone UnicodeString mzID; fTimeZoneNames->getMetaZoneID(tzID, date, mzID); if (!mzID.isEmpty()) { UErrorCode status = U_ZERO_ERROR; UBool useStandard = FALSE; int32_t raw, sav; tz.getOffset(date, FALSE, raw, sav, status); if (U_FAILURE(status)) { return name; } if (sav == 0) { useStandard = TRUE; TimeZone *tmptz = tz.clone(); // Check if the zone actually uses daylight saving time around the time BasicTimeZone *btz = NULL; if (dynamic_cast(tmptz) != NULL || dynamic_cast(tmptz) != NULL || dynamic_cast(tmptz) != NULL || dynamic_cast(tmptz) != NULL) { btz = (BasicTimeZone*)tmptz; } if (btz != NULL) { TimeZoneTransition before; UBool beforTrs = btz->getPreviousTransition(date, TRUE, before); if (beforTrs && (date - before.getTime() < kDstCheckRange) && before.getFrom()->getDSTSavings() != 0) { useStandard = FALSE; } else { TimeZoneTransition after; UBool afterTrs = btz->getNextTransition(date, FALSE, after); if (afterTrs && (after.getTime() - date < kDstCheckRange) && after.getTo()->getDSTSavings() != 0) { useStandard = FALSE; } } } else { // If not BasicTimeZone... only if the instance is not an ICU's implementation. // We may get a wrong answer in edge case, but it should practically work OK. tmptz->getOffset(date - kDstCheckRange, FALSE, raw, sav, status); if (sav != 0) { useStandard = FALSE; } else { tmptz->getOffset(date + kDstCheckRange, FALSE, raw, sav, status); if (sav != 0){ useStandard = FALSE; } } if (U_FAILURE(status)) { delete tmptz; return name; } } delete tmptz; } if (useStandard) { UTimeZoneNameType stdNameType = (nameType == UTZNM_LONG_GENERIC) ? UTZNM_LONG_STANDARD : UTZNM_SHORT_STANDARD_COMMONLY_USED; UnicodeString stdName; fTimeZoneNames->getDisplayName(tzID, stdNameType, date, stdName); if (!stdName.isEmpty()) { name.setTo(stdName); // TODO: revisit this issue later // In CLDR, a same display name is used for both generic and standard // for some meta zones in some locales. This looks like a data bugs. // For now, we check if the standard name is different from its generic // name below. UnicodeString mzGenericName; fTimeZoneNames->getMetaZoneDisplayName(mzID, nameType, mzGenericName); if (stdName.caseCompare(mzGenericName, 0) == 0) { name.setToBogus(); } } } if (name.isEmpty()) { // Get a name from meta zone UnicodeString mzName; fTimeZoneNames->getMetaZoneDisplayName(mzID, nameType, mzName); if (!mzName.isEmpty()) { // Check if we need to use a partial location format. // This check is done by comparing offset with the meta zone's // golden zone at the given date. UnicodeString goldenID; fTimeZoneNames->getReferenceZoneID(mzID, fTargetRegion, goldenID); if (!goldenID.isEmpty() && goldenID != tzID) { TimeZone *goldenZone = TimeZone::createTimeZone(goldenID); int32_t raw1, sav1; // Check offset in the golden zone with wall time. // With getOffset(date, false, offsets1), // you may get incorrect results because of time overlap at DST->STD // transition. goldenZone->getOffset(date + raw + sav, TRUE, raw1, sav1, status); delete goldenZone; if (U_SUCCESS(status)) { if (raw != raw1 || sav != sav1) { // Now we need to use a partial location format getPartialLocationName(tzID, mzID, (nameType == UTZNM_LONG_GENERIC), mzName, name); } else { name.setTo(mzName); } } } else { name.setTo(mzName); } } } } return name; } UnicodeString& TimeZoneGenericNames::getPartialLocationName(const UnicodeString& tzCanonicalID, const UnicodeString& mzID, UBool isLong, const UnicodeString& mzDisplayName, UnicodeString& name) const { name.setToBogus(); if (tzCanonicalID.isEmpty() || mzID.isEmpty() || mzDisplayName.isEmpty()) { return name; } const UChar *uplname = NULL; TimeZoneGenericNames *nonConstThis = const_cast(this); umtx_lock(&nonConstThis->fLock); { uplname = nonConstThis->getPartialLocationName(tzCanonicalID, mzID, isLong, mzDisplayName); } umtx_unlock(&nonConstThis->fLock); if (uplname == NULL) { name.setToBogus(); } else { name.setTo(TRUE, uplname, -1); } return name; } /* * This method updates the cache and must be called with a lock */ const UChar* TimeZoneGenericNames::getPartialLocationName(const UnicodeString& tzCanonicalID, const UnicodeString& mzID, UBool isLong, const UnicodeString& mzDisplayName) { U_ASSERT(!tzCanonicalID.isEmpty()); U_ASSERT(!mzID.isEmpty()); U_ASSERT(!mzDisplayName.isEmpty()); PartialLocationKey key; key.tzID = ZoneMeta::findTimeZoneID(tzCanonicalID); key.mzID = ZoneMeta::findMetaZoneID(mzID); key.isLong = isLong; U_ASSERT(key.tzID != NULL && key.mzID != NULL); const UChar* uplname = (const UChar*)uhash_get(fPartialLocationNamesMap, (void *)&key); if (uplname != NULL) { return uplname; } UnicodeString location; UnicodeString usCountryCode; ZoneMeta::getCanonicalCountry(tzCanonicalID, usCountryCode); if (!usCountryCode.isEmpty()) { char countryCode[ULOC_COUNTRY_CAPACITY]; U_ASSERT(usCountryCode.length() < ULOC_COUNTRY_CAPACITY); int32_t ccLen = usCountryCode.extract(0, usCountryCode.length(), countryCode, sizeof(countryCode), US_INV); countryCode[ccLen] = 0; UnicodeString regionalGolden; fTimeZoneNames->getReferenceZoneID(mzID, countryCode, regionalGolden); if (tzCanonicalID == regionalGolden) { // Use country name fLocaleDisplayNames->regionDisplayName(countryCode, location); } else { // Otherwise, use exemplar city name fTimeZoneNames->getExemplarLocationName(tzCanonicalID, location); } } else { fTimeZoneNames->getExemplarLocationName(tzCanonicalID, location); if (location.isEmpty()) { // This could happen when the time zone is not associated with a country, // and its ID is not hierarchical, for example, CST6CDT. // We use the canonical ID itself as the location for this case. location.setTo(tzCanonicalID); } } UErrorCode status = U_ZERO_ERROR; UnicodeString name; FieldPosition fpos; Formattable param[] = { Formattable(location), Formattable(mzDisplayName) }; fFallbackFormat->format(param, 2, name, fpos, status); if (U_FAILURE(status)) { return NULL; } uplname = fStringPool.get(name, status); if (U_SUCCESS(status)) { // Add the name to cache PartialLocationKey* cacheKey = (PartialLocationKey *)uprv_malloc(sizeof(PartialLocationKey)); if (cacheKey != NULL) { cacheKey->tzID = key.tzID; cacheKey->mzID = key.mzID; cacheKey->isLong = key.isLong; uhash_put(fPartialLocationNamesMap, (void *)cacheKey, (void *)uplname, &status); if (U_FAILURE(status)) { uprv_free(cacheKey); } else { // put the name to the local trie as well GNameInfo *nameinfo = (ZNameInfo *)uprv_malloc(sizeof(GNameInfo)); if (nameinfo != NULL) { nameinfo->type = isLong ? UTZGNM_LONG : UTZGNM_SHORT; nameinfo->tzID = key.tzID; fGNamesTrie.put(uplname, nameinfo, status); } } } } return uplname; } /* * This method updates the cache and must be called with a lock, * except initializer. */ void TimeZoneGenericNames::loadStrings(const UnicodeString& tzCanonicalID) { // load the generic location name getGenericLocationName(tzCanonicalID); // partial location names UErrorCode status = U_ZERO_ERROR; const UnicodeString *mzID; UnicodeString goldenID; UnicodeString mzGenName; UTimeZoneNameType genNonLocTypes[] = { UTZNM_LONG_GENERIC, UTZNM_SHORT_GENERIC, UTZNM_UNKNOWN /*terminator*/ }; StringEnumeration *mzIDs = fTimeZoneNames->getAvailableMetaZoneIDs(tzCanonicalID, status); while ((mzID = mzIDs->snext(status))) { if (U_FAILURE(status)) { break; } // if this time zone is not the golden zone of the meta zone, // partial location name (such as "PT (Los Angeles)") might be // available. fTimeZoneNames->getReferenceZoneID(*mzID, fTargetRegion, goldenID); if (tzCanonicalID != goldenID) { for (int32_t i = 0; genNonLocTypes[i] != UTZNM_UNKNOWN; i++) { fTimeZoneNames->getMetaZoneDisplayName(*mzID, genNonLocTypes[i], mzGenName); if (!mzGenName.isEmpty()) { // getPartialLocationName formats a name and put it into the trie getPartialLocationName(tzCanonicalID, *mzID, (genNonLocTypes[i] == UTZNM_LONG_GENERIC), mzGenName); } } } } if (mzIDs != NULL) { delete mzIDs; } } int32_t TimeZoneGenericNames::findBestMatch(const UnicodeString& text, int32_t start, uint32_t types, UnicodeString& tzID, UTimeZoneTimeType& timeType, UErrorCode& status) const { timeType = UTZFMT_TIME_TYPE_UNKNOWN; tzID.setToBogus(); if (U_FAILURE(status)) { return 0; } // Find matches in the TimeZoneNames first TimeZoneNameMatchInfo *tznamesMatches = findTimeZoneNames(text, start, types, status); if (U_FAILURE(status)) { return 0; } int32_t bestMatchLen = 0; UTimeZoneTimeType bestMatchTimeType = UTZFMT_TIME_TYPE_UNKNOWN; UnicodeString bestMatchTzID; UBool isLongStandard = FALSE; // workaround - see the comments below if (tznamesMatches != NULL) { UnicodeString mzID; for (int32_t i = 0; i < tznamesMatches->size(); i++) { int32_t len = tznamesMatches->getMatchLength(i); if (len > bestMatchLen) { bestMatchLen = len; tznamesMatches->getTimeZoneID(i, bestMatchTzID); if (bestMatchTzID.isEmpty()) { // name for a meta zone tznamesMatches->getMetaZoneID(i, mzID); U_ASSERT(mzID.length() > 0); fTimeZoneNames->getReferenceZoneID(mzID, fTargetRegion, bestMatchTzID); } UTimeZoneNameType nameType = tznamesMatches->getNameType(i); switch (nameType) { case UTZNM_LONG_STANDARD: isLongStandard = TRUE; case UTZNM_SHORT_STANDARD_COMMONLY_USED: case UTZNM_SHORT_STANDARD: // this one is never used for generic, but just in case bestMatchTimeType = UTZFMT_TIME_TYPE_STANDARD; break; case UTZNM_LONG_DAYLIGHT: case UTZNM_SHORT_DAYLIGHT_COMMONLY_USED: case UTZNM_SHORT_DAYLIGHT: // this one is never used for generic, but just in case bestMatchTimeType = UTZFMT_TIME_TYPE_DAYLIGHT; break; default: bestMatchTimeType = UTZFMT_TIME_TYPE_UNKNOWN; } } } delete tznamesMatches; if (bestMatchLen == (text.length() - start)) { // Full match //tzID.setTo(bestMatchTzID); //timeType = bestMatchTimeType; //return bestMatchLen; // TODO Some time zone uses a same name for the long standard name // and the location name. When the match is a long standard name, // then we need to check if the name is same with the location name. // This is probably a data error or a design bug. if (!isLongStandard) { tzID.setTo(bestMatchTzID); timeType = bestMatchTimeType; return bestMatchLen; } } } // Find matches in the local trie TimeZoneGenericNameMatchInfo *localMatches = findLocal(text, start, types, status); if (U_FAILURE(status)) { return 0; } if (localMatches != NULL) { for (int32_t i = 0; i < localMatches->size(); i++) { int32_t len = localMatches->getMatchLength(i); // TODO See the above TODO. We use len >= bestMatchLen // because of the long standard/location name collision // problem. If it is also a location name, carrying // timeType = UTZFMT_TIME_TYPE_STANDARD will cause a // problem in SimpleDateFormat if (len >= bestMatchLen) { bestMatchLen = localMatches->getMatchLength(i); bestMatchTimeType = UTZFMT_TIME_TYPE_UNKNOWN; // because generic localMatches->getTimeZoneID(i, bestMatchTzID); } } delete localMatches; } if (bestMatchLen > 0) { timeType = bestMatchTimeType; tzID.setTo(bestMatchTzID); } return bestMatchLen; } TimeZoneGenericNameMatchInfo* TimeZoneGenericNames::findLocal(const UnicodeString& text, int32_t start, uint32_t types, UErrorCode& status) const { GNameSearchHandler handler(types); TimeZoneGenericNames *nonConstThis = const_cast(this); umtx_lock(&nonConstThis->fLock); { fGNamesTrie.search(text, start, (TextTrieMapSearchResultHandler *)&handler, status); } umtx_unlock(&nonConstThis->fLock); if (U_FAILURE(status)) { return NULL; } TimeZoneGenericNameMatchInfo *gmatchInfo = NULL; int32_t maxLen = 0; UVector *results = handler.getMatches(maxLen); if ((results != NULL && (maxLen == (text.length() - start))) || fGNamesTrieFullyLoaded) { // perfect match gmatchInfo = new TimeZoneGenericNameMatchInfo(results); if (gmatchInfo == NULL) { status = U_MEMORY_ALLOCATION_ERROR; delete results; return NULL; } return gmatchInfo; } if (results != NULL) { delete results; } // All names are not yet loaded into the local trie. // Load all available names into the trie. This could be very heavy. umtx_lock(&nonConstThis->fLock); { if (!fGNamesTrieFullyLoaded) { StringEnumeration *tzIDs = TimeZone::createTimeZoneIDEnumeration(UCAL_ZONE_TYPE_CANONICAL, NULL, NULL, status); if (U_SUCCESS(status)) { const UnicodeString *tzID; while ((tzID = tzIDs->snext(status))) { if (U_FAILURE(status)) { break; } nonConstThis->loadStrings(*tzID); } } if (tzIDs != NULL) { delete tzIDs; } if (U_SUCCESS(status)) { nonConstThis->fGNamesTrieFullyLoaded = TRUE; } } } umtx_unlock(&nonConstThis->fLock); if (U_FAILURE(status)) { return NULL; } umtx_lock(&nonConstThis->fLock); { // now try it again fGNamesTrie.search(text, start, (TextTrieMapSearchResultHandler *)&handler, status); } umtx_unlock(&nonConstThis->fLock); results = handler.getMatches(maxLen); if (results != NULL && maxLen > 0) { gmatchInfo = new TimeZoneGenericNameMatchInfo(results); if (gmatchInfo == NULL) { status = U_MEMORY_ALLOCATION_ERROR; delete results; return NULL; } } return gmatchInfo; } TimeZoneNameMatchInfo* TimeZoneGenericNames::findTimeZoneNames(const UnicodeString& text, int32_t start, uint32_t types, UErrorCode& status) const { TimeZoneNameMatchInfo *matchInfo = NULL; // Check if the target name typs is really in the TimeZoneNames uint32_t nameTypes = 0; if (types & UTZGNM_LONG) { nameTypes |= (UTZNM_LONG_GENERIC | UTZNM_LONG_STANDARD); } if (types & UTZGNM_SHORT) { nameTypes |= (UTZNM_SHORT_GENERIC | UTZNM_SHORT_STANDARD_COMMONLY_USED); } if (types) { // Find matches in the TimeZoneNames matchInfo = fTimeZoneNames->find(text, start, nameTypes, status); } return matchInfo; } U_NAMESPACE_END #endif