/*
*******************************************************************************
* Copyright (C) 2007-2009, International Business Machines Corporation and *
* others. All Rights Reserved. *
*******************************************************************************
*/
#include "unicode/utypes.h"
#if !UCONFIG_NO_FORMATTING
#include "zstrfmt.h"
#include "unicode/ustring.h"
#include "unicode/putil.h"
#include "unicode/msgfmt.h"
#include "unicode/basictz.h"
#include "unicode/simpletz.h"
#include "unicode/rbtz.h"
#include "unicode/vtzone.h"
#include "uvector.h"
#include "cstring.h"
#include "cmemory.h"
#include "uresimp.h"
#include "zonemeta.h"
#include "olsontz.h"
#include "umutex.h"
#include "ucln_in.h"
/**
* global ZoneStringFormatCache stuffs
*/
static UMTX gZSFCacheLock = NULL;
static U_NAMESPACE_QUALIFIER ZSFCache *gZoneStringFormatCache = NULL;
U_CDECL_BEGIN
/**
* ZoneStringFormatCache cleanup callback func
*/
static UBool U_CALLCONV zoneStringFormat_cleanup(void)
{
umtx_destroy(&gZSFCacheLock);
if (gZoneStringFormatCache != NULL) {
delete gZoneStringFormatCache;
gZoneStringFormatCache = NULL;
}
gZoneStringFormatCache = NULL;
return TRUE;
}
/**
* Deleter for ZoneStringInfo
*/
static void U_CALLCONV
deleteZoneStringInfo(void *obj) {
delete (U_NAMESPACE_QUALIFIER ZoneStringInfo*)obj;
}
/**
* Deleter for ZoneStrings
*/
static void U_CALLCONV
deleteZoneStrings(void *obj) {
delete (U_NAMESPACE_QUALIFIER ZoneStrings*)obj;
}
U_CDECL_END
U_NAMESPACE_BEGIN
#define ZID_KEY_MAX 128
static const char gCountriesTag[] = "Countries";
static const char gZoneStringsTag[] = "zoneStrings";
static const char gShortGenericTag[] = "sg";
static const char gShortStandardTag[] = "ss";
static const char gShortDaylightTag[] = "sd";
static const char gLongGenericTag[] = "lg";
static const char gLongStandardTag[] = "ls";
static const char gLongDaylightTag[] = "ld";
static const char gExemplarCityTag[] = "ec";
static const char gCommonlyUsedTag[] = "cu";
static const char gFallbackFormatTag[] = "fallbackFormat";
static const char gRegionFormatTag[] = "regionFormat";
#define MZID_PREFIX_LEN 5
static const char gMetazoneIdPrefix[] = "meta:";
#define MAX_METAZONES_PER_ZONE 10
static const UChar gDefFallbackPattern[] = {0x7B, 0x31, 0x7D, 0x20, 0x28, 0x7B, 0x30, 0x7D, 0x29, 0x00}; // "{1} ({0})"
static const UChar gDefRegionPattern[] = {0x7B, 0x30, 0x7D, 0x00}; // "{0}"
static const UChar gCommonlyUsedTrue[] = {0x31, 0x00}; // "1"
static const double kDstCheckRange = (double)184*U_MILLIS_PER_DAY;
static int32_t
getTimeZoneTranslationTypeIndex(TimeZoneTranslationType type) {
int32_t typeIdx = 0;
switch (type) {
case LOCATION:
typeIdx = ZSIDX_LOCATION;
break;
case GENERIC_LONG:
typeIdx = ZSIDX_LONG_GENERIC;
break;
case GENERIC_SHORT:
typeIdx = ZSIDX_SHORT_GENERIC;
break;
case STANDARD_LONG:
typeIdx = ZSIDX_LONG_STANDARD;
break;
case STANDARD_SHORT:
typeIdx = ZSIDX_SHORT_STANDARD;
break;
case DAYLIGHT_LONG:
typeIdx = ZSIDX_LONG_DAYLIGHT;
break;
case DAYLIGHT_SHORT:
typeIdx = ZSIDX_SHORT_DAYLIGHT;
break;
}
return typeIdx;
}
static int32_t
getTimeZoneTranslationType(TimeZoneTranslationTypeIndex typeIdx) {
int32_t type = 0;
switch (typeIdx) {
case ZSIDX_LOCATION:
type = LOCATION;
break;
case ZSIDX_LONG_GENERIC:
type = GENERIC_LONG;
break;
case ZSIDX_SHORT_GENERIC:
type = GENERIC_SHORT;
break;
case ZSIDX_LONG_STANDARD:
type = STANDARD_LONG;
break;
case ZSIDX_SHORT_STANDARD:
type = STANDARD_SHORT;
break;
case ZSIDX_LONG_DAYLIGHT:
type = DAYLIGHT_LONG;
break;
case ZSIDX_COUNT:
case ZSIDX_SHORT_DAYLIGHT:
type = DAYLIGHT_SHORT;
break;
default:
break;
}
return type;
}
#define DEFAULT_CHARACTERNODE_CAPACITY 1
// ----------------------------------------------------------------------------
void CharacterNode::clear() {
uprv_memset(this, 0, sizeof(*this));
}
void CharacterNode::deleteValues() {
if (fValues == NULL) {
// Do nothing.
} else if (!fHasValuesVector) {
deleteZoneStringInfo(fValues);
} else {
delete (UVector *)fValues;
}
}
void
CharacterNode::addValue(void *value, UErrorCode &status) {
if (U_FAILURE(status)) {
deleteZoneStringInfo(value);
return;
}
if (fValues == NULL) {
fValues = value;
} else {
// At least one value already.
if (!fHasValuesVector) {
// There is only one value so far, and not in a vector yet.
// Create a vector and add the old value.
UVector *values = new UVector(deleteZoneStringInfo, NULL, DEFAULT_CHARACTERNODE_CAPACITY, status);
if (U_FAILURE(status)) {
deleteZoneStringInfo(value);
return;
}
values->addElement(fValues, status);
fValues = values;
fHasValuesVector = TRUE;
}
// Add the new value.
((UVector *)fValues)->addElement(value, status);
}
}
//----------------------------------------------------------------------------
// Virtual destructor to avoid warning
TextTrieMapSearchResultHandler::~TextTrieMapSearchResultHandler(){
}
// ----------------------------------------------------------------------------
TextTrieMap::TextTrieMap(UBool ignoreCase)
: fIgnoreCase(ignoreCase), fNodes(NULL), fNodesCapacity(0), fNodesCount(0) {
}
TextTrieMap::~TextTrieMap() {
int32_t index;
for (index = 0; index < fNodesCount; ++index) {
fNodes[index].deleteValues();
}
uprv_free(fNodes);
}
void
TextTrieMap::put(const UnicodeString &key, void *value, UErrorCode &status) {
if (fNodes == NULL) {
fNodesCapacity = 512;
fNodes = (CharacterNode *)uprv_malloc(fNodesCapacity * sizeof(CharacterNode));
fNodes[0].clear(); // Init root node.
fNodesCount = 1;
}
UnicodeString foldedKey;
const UChar *keyBuffer;
int32_t keyLength;
if (fIgnoreCase) {
// Ok to use fastCopyFrom() because we discard the copy when we return.
foldedKey.fastCopyFrom(key).foldCase();
keyBuffer = foldedKey.getBuffer();
keyLength = foldedKey.length();
} else {
keyBuffer = key.getBuffer();
keyLength = key.length();
}
CharacterNode *node = fNodes;
int32_t index;
for (index = 0; index < keyLength; ++index) {
node = addChildNode(node, keyBuffer[index], status);
}
node->addValue(value, status);
}
UBool
TextTrieMap::growNodes() {
if (fNodesCapacity == 0xffff) {
return FALSE; // We use 16-bit node indexes.
}
int32_t newCapacity = fNodesCapacity * 2;
if (newCapacity > 0xffff) {
newCapacity = 0xffff;
}
CharacterNode *newNodes = (CharacterNode *)uprv_malloc(newCapacity * sizeof(CharacterNode));
if (newNodes == NULL) {
return FALSE;
}
uprv_memcpy(newNodes, fNodes, fNodesCount * sizeof(CharacterNode));
uprv_free(fNodes);
fNodes = newNodes;
fNodesCapacity = newCapacity;
return TRUE;
}
CharacterNode*
TextTrieMap::addChildNode(CharacterNode *parent, UChar c, UErrorCode &status) {
if (U_FAILURE(status)) {
return NULL;
}
// Linear search of the sorted list of children.
uint16_t prevIndex = 0;
uint16_t nodeIndex = parent->fFirstChild;
while (nodeIndex > 0) {
CharacterNode *current = fNodes + nodeIndex;
UChar childCharacter = current->fCharacter;
if (childCharacter == c) {
return current;
} else if (childCharacter > c) {
break;
}
prevIndex = nodeIndex;
nodeIndex = current->fNextSibling;
}
// Ensure capacity. Grow fNodes[] if needed.
if (fNodesCount == fNodesCapacity) {
int32_t parentIndex = (parent - fNodes);
if (!growNodes()) {
status = U_MEMORY_ALLOCATION_ERROR;
return NULL;
}
parent = fNodes + parentIndex;
}
// Insert a new child node with c in sorted order.
CharacterNode *node = fNodes + fNodesCount;
node->clear();
node->fCharacter = c;
node->fNextSibling = nodeIndex;
if (prevIndex == 0) {
parent->fFirstChild = (uint16_t)fNodesCount;
} else {
fNodes[prevIndex].fNextSibling = (uint16_t)fNodesCount;
}
++fNodesCount;
return node;
}
CharacterNode*
TextTrieMap::getChildNode(CharacterNode *parent, UChar c) const {
// Linear search of the sorted list of children.
uint16_t nodeIndex = parent->fFirstChild;
while (nodeIndex > 0) {
CharacterNode *current = fNodes + nodeIndex;
UChar childCharacter = current->fCharacter;
if (childCharacter == c) {
return current;
} else if (childCharacter > c) {
break;
}
nodeIndex = current->fNextSibling;
}
return NULL;
}
void
TextTrieMap::search(const UnicodeString &text, int32_t start,
TextTrieMapSearchResultHandler *handler, UErrorCode &status) const {
if (fNodes == NULL) {
return;
}
search(fNodes, text, start, start, handler, status);
}
void
TextTrieMap::search(CharacterNode *node, const UnicodeString &text, int32_t start,
int32_t index, TextTrieMapSearchResultHandler *handler, UErrorCode &status) const {
if (U_FAILURE(status)) {
return;
}
if (node->hasValues()) {
if (!handler->handleMatch(index - start, node, status)) {
return;
}
if (U_FAILURE(status)) {
return;
}
}
UChar32 c = text.char32At(index);
if (fIgnoreCase) {
// size of character may grow after fold operation
UnicodeString tmp(c);
tmp.foldCase();
int32_t tmpidx = 0;
while (tmpidx < tmp.length()) {
c = tmp.char32At(tmpidx);
node = getChildNode(node, c);
if (node == NULL) {
break;
}
tmpidx = tmp.moveIndex32(tmpidx, 1);
}
} else {
node = getChildNode(node, c);
}
if (node != NULL) {
search(node, text, start, index+1, handler, status);
}
}
// ----------------------------------------------------------------------------
ZoneStringInfo::ZoneStringInfo(const UnicodeString &id, const UnicodeString &str,
TimeZoneTranslationType type)
: fId(id), fStr(str), fType(type) {
}
ZoneStringInfo::~ZoneStringInfo() {
}
// ----------------------------------------------------------------------------
ZoneStringSearchResultHandler::ZoneStringSearchResultHandler(UErrorCode &status)
: fResults(status)
{
clear();
}
ZoneStringSearchResultHandler::~ZoneStringSearchResultHandler() {
clear();
}
UBool
ZoneStringSearchResultHandler::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++) {
ZoneStringInfo *zsinfo = (ZoneStringInfo*)node->getValue(i);
if (zsinfo == NULL) {
break;
}
// Update the results
UBool foundType = FALSE;
for (int32_t j = 0; j < fResults.size(); j++) {
ZoneStringInfo *tmp = (ZoneStringInfo*)fResults.elementAt(j);
if (zsinfo->fType == tmp->fType) {
int32_t lenidx = getTimeZoneTranslationTypeIndex(tmp->fType);
if (matchLength > fMatchLen[lenidx]) {
// Same type, longer match
fResults.setElementAt(zsinfo, j);
fMatchLen[lenidx] = matchLength;
}
foundType = TRUE;
break;
}
}
if (!foundType) {
// not found in the current list
fResults.addElement(zsinfo, status);
fMatchLen[getTimeZoneTranslationTypeIndex(zsinfo->fType)] = matchLength;
}
}
}
return TRUE;
}
int32_t
ZoneStringSearchResultHandler::countMatches(void) {
return fResults.size();
}
const ZoneStringInfo*
ZoneStringSearchResultHandler::getMatch(int32_t index, int32_t &matchLength) {
ZoneStringInfo *zsinfo = NULL;
if (index < fResults.size()) {
zsinfo = (ZoneStringInfo*)fResults.elementAt(index);
matchLength = fMatchLen[getTimeZoneTranslationTypeIndex(zsinfo->fType)];
}
return zsinfo;
}
void
ZoneStringSearchResultHandler::clear(void) {
fResults.removeAllElements();
for (int32_t i = 0; i < (int32_t)(sizeof(fMatchLen)/sizeof(fMatchLen[0])); i++) {
fMatchLen[i] = 0;
}
}
// ----------------------------------------------------------------------------
ZoneStringFormat::ZoneStringFormat(const UnicodeString* const* strings,
int32_t rowCount, int32_t columnCount, UErrorCode &status)
: fLocale(""),
fTzidToStrings(uhash_compareUnicodeString, NULL, status),
fMzidToStrings(uhash_compareUnicodeString, NULL, status),
fZoneStringsTrie(TRUE)
{
if (U_FAILURE(status)) {
return;
}
fLocale.setToBogus();
if (strings == NULL || columnCount <= 0 || rowCount <= 0) {
status = U_ILLEGAL_ARGUMENT_ERROR;
return;
}
fTzidToStrings.setValueDeleter(deleteZoneStrings);
for (int32_t row = 0; row < rowCount; row++) {
if (strings[row][0].isEmpty()) {
continue;
}
UnicodeString *names = new UnicodeString[ZSIDX_COUNT];
for (int32_t col = 1; col < columnCount; col++) {
if (!strings[row][col].isEmpty()) {
int32_t typeIdx = -1;
switch (col) {
case 1:
typeIdx = ZSIDX_LONG_STANDARD;
break;
case 2:
typeIdx = ZSIDX_SHORT_STANDARD;
break;
case 3:
typeIdx = ZSIDX_LONG_DAYLIGHT;
break;
case 4:
typeIdx = ZSIDX_SHORT_DAYLIGHT;
break;
case 5:
typeIdx = ZSIDX_LOCATION;
break;
case 6:
typeIdx = ZSIDX_LONG_GENERIC;
break;
case 7:
typeIdx = ZSIDX_SHORT_GENERIC;
break;
}
if (typeIdx != -1) {
names[typeIdx].setTo(strings[row][col]);
// Put the name into the trie
int32_t type = getTimeZoneTranslationType((TimeZoneTranslationTypeIndex)typeIdx);
ZoneStringInfo *zsinf = new ZoneStringInfo(strings[row][0], strings[row][col], (TimeZoneTranslationType)type);
fZoneStringsTrie.put(strings[row][col], zsinf, status);
if (U_FAILURE(status)) {
delete zsinf;
goto error_cleanup;
}
}
}
}
ZoneStrings *zstrings = new ZoneStrings(names, ZSIDX_COUNT, TRUE, NULL, 0, 0);
fTzidToStrings.put(strings[row][0], zstrings, status);
if (U_FAILURE(status)) {
delete zstrings;
goto error_cleanup;
}
}
return;
error_cleanup:
return;
}
ZoneStringFormat::ZoneStringFormat(const Locale &locale, UErrorCode &status)
: fLocale(locale),
fTzidToStrings(uhash_compareUnicodeString, NULL, status),
fMzidToStrings(uhash_compareUnicodeString, NULL, status),
fZoneStringsTrie(TRUE)
{
if (U_FAILURE(status)) {
return;
}
fTzidToStrings.setValueDeleter(deleteZoneStrings);
fMzidToStrings.setValueDeleter(deleteZoneStrings);
UResourceBundle *zoneStringsArray = ures_open(NULL, locale.getName(), &status);
zoneStringsArray = ures_getByKeyWithFallback(zoneStringsArray, gZoneStringsTag, zoneStringsArray, &status);
if (U_FAILURE(status)) {
// If no locale bundles are available, zoneStrings will be null.
// We still want to go through the rest of zone strings initialization,
// because generic location format is generated from tzid for the case.
// The rest of code should work even zoneStrings is null.
status = U_ZERO_ERROR;
ures_close(zoneStringsArray);
zoneStringsArray = NULL;
}
StringEnumeration *tzids = NULL;
MessageFormat *fallbackFmt = NULL;
MessageFormat *regionFmt = NULL;
UResourceBundle *zoneItem = NULL;
UResourceBundle *metazoneItem = NULL;
char zidkey[ZID_KEY_MAX];
const UChar *zstrarray[ZSIDX_COUNT];
const UChar *mzstrarray[ZSIDX_COUNT];
UnicodeString mzPartialLoc[MAX_METAZONES_PER_ZONE][4];
UnicodeString region;
getRegion(region);
fallbackFmt = getFallbackFormat(locale, status);
if (U_FAILURE(status)) {
goto error_cleanup;
}
regionFmt = getRegionFormat(locale, status);
if (U_FAILURE(status)) {
goto error_cleanup;
}
tzids = TimeZone::createEnumeration();
const char *tzid;
while ((tzid = tzids->next(NULL, status))) {
if (U_FAILURE(status)) {
goto error_cleanup;
}
// Skip non-canonical IDs
UnicodeString utzid(tzid, -1, US_INV);
UnicodeString canonicalID;
TimeZone::getCanonicalID(utzid, canonicalID, status);
if (U_FAILURE(status)) {
// Ignore unknown ID - we should not get here, but just in case.
status = U_ZERO_ERROR;
continue;
}
if (utzid != canonicalID) {
continue;
}
uprv_strcpy(zidkey, tzid);
// Replace '/' with ':'
char *pCity = NULL;
char *p = zidkey;
while (*p) {
if (*p == '/') {
*p = ':';
pCity = p + 1;
}
p++;
}
if (zoneStringsArray != NULL) {
zoneItem = ures_getByKeyWithFallback(zoneStringsArray, zidkey, zoneItem, &status);
if (U_FAILURE(status)) {
// If failed to open the zone item, create only location string
ures_close(zoneItem);
zoneItem = NULL;
status = U_ZERO_ERROR;
}
}
zstrarray[ZSIDX_LONG_STANDARD] = getZoneStringFromBundle(zoneItem, gLongStandardTag);
zstrarray[ZSIDX_SHORT_STANDARD] = getZoneStringFromBundle(zoneItem, gShortStandardTag);
zstrarray[ZSIDX_LONG_DAYLIGHT] = getZoneStringFromBundle(zoneItem, gLongDaylightTag);
zstrarray[ZSIDX_SHORT_DAYLIGHT] = getZoneStringFromBundle(zoneItem, gShortDaylightTag);
zstrarray[ZSIDX_LONG_GENERIC] = getZoneStringFromBundle(zoneItem, gLongGenericTag);
zstrarray[ZSIDX_SHORT_GENERIC] = getZoneStringFromBundle(zoneItem, gShortGenericTag);
// Compose location format string
UnicodeString location;
UnicodeString country;
UnicodeString city;
UnicodeString countryCode;
ZoneMeta::getCanonicalCountry(utzid, countryCode);
if (!countryCode.isEmpty()) {
const UChar* tmpCity = getZoneStringFromBundle(zoneItem, gExemplarCityTag);
if (tmpCity != NULL) {
city.setTo(TRUE, tmpCity, -1);
} else {
city.setTo(UnicodeString(pCity, -1, US_INV));
// Replace '_' with ' '
for (int32_t i = 0; i < city.length(); i++) {
if (city.charAt(i) == (UChar)0x5F /*'_'*/) {
city.setCharAt(i, (UChar)0x20 /*' '*/);
}
}
}
getLocalizedCountry(countryCode, locale, country);
UnicodeString singleCountry;
ZoneMeta::getSingleCountry(utzid, singleCountry);
FieldPosition fpos;
if (singleCountry.isEmpty()) {
Formattable params [] = {
Formattable(city),
Formattable(country)
};
fallbackFmt->format(params, 2, location, fpos, status);
} else {
// If the zone is only one zone in the country, do not add city
Formattable params [] = {
Formattable(country)
};
regionFmt->format(params, 1, location, fpos, status);
}
if (U_FAILURE(status)) {
goto error_cleanup;
}
// Workaround for reducing UMR warning in Purify.
// Append NULL before calling getTerminatedBuffer()
int32_t locLen = location.length();
location.append((UChar)0).truncate(locLen);
zstrarray[ZSIDX_LOCATION] = location.getTerminatedBuffer();
} else {
if (uprv_strlen(tzid) > 4 && uprv_strncmp(tzid, "Etc/", 4) == 0) {
// "Etc/xxx" is not associated with a specific location, so localized
// GMT format is always used as generic location format.
zstrarray[ZSIDX_LOCATION] = NULL;
} else {
// When a new time zone ID, which is actually associated with a specific
// location, is added in tzdata, but the current CLDR data does not have
// the information yet, ICU creates a generic location string based on
// the ID. This implementation supports canonical time zone round trip
// with format pattern "VVVV". See #6602 for the details.
UnicodeString loc(utzid);
int32_t slashIdx = loc.lastIndexOf((UChar)0x2f);
if (slashIdx == -1) {
// A time zone ID without slash in the tz database is not
// associated with a specific location. For instances,
// MET, CET, EET and WET fall into this category.
// In this case, we still use GMT format as fallback.
zstrarray[ZSIDX_LOCATION] = NULL;
} else {
FieldPosition fpos;
Formattable params[] = {
Formattable(loc)
};
regionFmt->format(params, 1, location, fpos, status);
if (U_FAILURE(status)) {
goto error_cleanup;
}
// Workaround for reducing UMR warning in Purify.
// Append NULL before calling getTerminatedBuffer()
int32_t locLen = location.length();
location.append((UChar)0).truncate(locLen);
zstrarray[ZSIDX_LOCATION] = location.getTerminatedBuffer();
}
}
}
UBool commonlyUsed = isCommonlyUsed(zoneItem);
// Resolve metazones used by this zone
int32_t mzPartialLocIdx = 0;
const UVector *metazoneMappings = ZoneMeta::getMetazoneMappings(utzid);
if (metazoneMappings != NULL) {
for (int32_t i = 0; i < metazoneMappings->size(); i++) {
const OlsonToMetaMappingEntry *mzmap = (const OlsonToMetaMappingEntry*)metazoneMappings->elementAt(i);
UnicodeString mzid(mzmap->mzid);
const ZoneStrings *mzStrings = (const ZoneStrings*)fMzidToStrings.get(mzid);
if (mzStrings == NULL) {
// If the metazone strings are not yet processed, do it now.
char mzidkey[ZID_KEY_MAX];
uprv_strcpy(mzidkey, gMetazoneIdPrefix);
u_UCharsToChars(mzmap->mzid, mzidkey + MZID_PREFIX_LEN, u_strlen(mzmap->mzid) + 1);
metazoneItem = ures_getByKeyWithFallback(zoneStringsArray, mzidkey, metazoneItem, &status);
if (U_FAILURE(status)) {
// No resources available for this metazone
// Resource bundle will be cleaned up after end of the loop.
status = U_ZERO_ERROR;
continue;
}
UBool mzCommonlyUsed = isCommonlyUsed(metazoneItem);
mzstrarray[ZSIDX_LONG_STANDARD] = getZoneStringFromBundle(metazoneItem, gLongStandardTag);
mzstrarray[ZSIDX_SHORT_STANDARD] = getZoneStringFromBundle(metazoneItem, gShortStandardTag);
mzstrarray[ZSIDX_LONG_DAYLIGHT] = getZoneStringFromBundle(metazoneItem, gLongDaylightTag);
mzstrarray[ZSIDX_SHORT_DAYLIGHT] = getZoneStringFromBundle(metazoneItem, gShortDaylightTag);
mzstrarray[ZSIDX_LONG_GENERIC] = getZoneStringFromBundle(metazoneItem, gLongGenericTag);
mzstrarray[ZSIDX_SHORT_GENERIC] = getZoneStringFromBundle(metazoneItem, gShortGenericTag);
mzstrarray[ZSIDX_LOCATION] = NULL;
int32_t lastNonNullIdx = ZSIDX_COUNT - 1;
while (lastNonNullIdx >= 0) {
if (mzstrarray[lastNonNullIdx] != NULL) {
break;
}
lastNonNullIdx--;
}
UnicodeString *strings_mz = NULL;
ZoneStrings *tmp_mzStrings = NULL;
if (lastNonNullIdx >= 0) {
// Create UnicodeString array and put strings to the zone string trie
strings_mz = new UnicodeString[lastNonNullIdx + 1];
UnicodeString preferredIdForLocale;
ZoneMeta::getZoneIdByMetazone(mzid, region, preferredIdForLocale);
for (int32_t typeidx = 0; typeidx <= lastNonNullIdx; typeidx++) {
if (mzstrarray[typeidx] != NULL) {
strings_mz[typeidx].setTo(TRUE, mzstrarray[typeidx], -1);
// Add a metazone string to the zone string trie
int32_t type = getTimeZoneTranslationType((TimeZoneTranslationTypeIndex)typeidx);
ZoneStringInfo *zsinfo = new ZoneStringInfo(preferredIdForLocale, strings_mz[typeidx], (TimeZoneTranslationType)type);
fZoneStringsTrie.put(strings_mz[typeidx], zsinfo, status);
if (U_FAILURE(status)) {
delete []strings_mz;
goto error_cleanup;
}
}
}
tmp_mzStrings = new ZoneStrings(strings_mz, lastNonNullIdx + 1, mzCommonlyUsed, NULL, 0, 0);
} else {
// Create ZoneStrings with empty contents
tmp_mzStrings = new ZoneStrings(NULL, 0, FALSE, NULL, 0, 0);
}
fMzidToStrings.put(mzid, tmp_mzStrings, status);
if (U_FAILURE(status)) {
goto error_cleanup;
}
mzStrings = tmp_mzStrings;
}
// Compose generic partial location format
UnicodeString lg;
UnicodeString sg;
mzStrings->getString(ZSIDX_LONG_GENERIC, lg);
mzStrings->getString(ZSIDX_SHORT_GENERIC, sg);
if (!lg.isEmpty() || !sg.isEmpty()) {
UBool addMzPartialLocationNames = TRUE;
for (int32_t j = 0; j < mzPartialLocIdx; j++) {
if (mzPartialLoc[j][0] == mzid) {
// already processed
addMzPartialLocationNames = FALSE;
break;
}
}
if (addMzPartialLocationNames) {
UnicodeString *locationPart = NULL;
// Check if the zone is the preferred zone for the territory associated with the zone
UnicodeString preferredID;
ZoneMeta::getZoneIdByMetazone(mzid, countryCode, preferredID);
if (utzid == preferredID) {
// Use country for the location
locationPart = &country;
} else {
// Use city for the location
locationPart = &city;
}
// Reset the partial location string array
mzPartialLoc[mzPartialLocIdx][0].setTo(mzid);
mzPartialLoc[mzPartialLocIdx][1].remove();
mzPartialLoc[mzPartialLocIdx][2].remove();
mzPartialLoc[mzPartialLocIdx][3].remove();
if (locationPart != NULL) {
FieldPosition fpos;
if (!lg.isEmpty()) {
Formattable params [] = {
Formattable(*locationPart),
Formattable(lg)
};
fallbackFmt->format(params, 2, mzPartialLoc[mzPartialLocIdx][1], fpos, status);
}
if (!sg.isEmpty()) {
Formattable params [] = {
Formattable(*locationPart),
Formattable(sg)
};
fallbackFmt->format(params, 2, mzPartialLoc[mzPartialLocIdx][2], fpos, status);
if (mzStrings->isShortFormatCommonlyUsed()) {
mzPartialLoc[mzPartialLocIdx][3].setTo(TRUE, gCommonlyUsedTrue, -1);
}
}
if (U_FAILURE(status)) {
goto error_cleanup;
}
}
mzPartialLocIdx++;
}
}
}
}
// Collected names for a zone
// Create UnicodeString array for localized zone strings
int32_t lastIdx = ZSIDX_COUNT - 1;
while (lastIdx >= 0) {
if (zstrarray[lastIdx] != NULL) {
break;
}
lastIdx--;
}
UnicodeString *strings = NULL;
int32_t stringsCount = lastIdx + 1;
if (stringsCount > 0) {
strings = new UnicodeString[stringsCount];
for (int32_t i = 0; i < stringsCount; i++) {
if (zstrarray[i] != NULL) {
strings[i].setTo(zstrarray[i], -1);
// Add names to the trie
int32_t type = getTimeZoneTranslationType((TimeZoneTranslationTypeIndex)i);
ZoneStringInfo *zsinfo = new ZoneStringInfo(utzid, strings[i], (TimeZoneTranslationType)type);
fZoneStringsTrie.put(strings[i], zsinfo, status);
if (U_FAILURE(status)) {
delete zsinfo;
delete[] strings;
goto error_cleanup;
}
}
}
}
// Create UnicodeString array for generic partial location strings
UnicodeString **genericPartialLocationNames = NULL;
int32_t genericPartialRowCount = mzPartialLocIdx;
int32_t genericPartialColCount = 4;
if (genericPartialRowCount != 0) {
genericPartialLocationNames = (UnicodeString**)uprv_malloc(genericPartialRowCount * sizeof(UnicodeString*));
if (genericPartialLocationNames == NULL) {
status = U_MEMORY_ALLOCATION_ERROR;
delete[] strings;
goto error_cleanup;
}
for (int32_t i = 0; i < genericPartialRowCount; i++) {
genericPartialLocationNames[i] = new UnicodeString[genericPartialColCount];
for (int32_t j = 0; j < genericPartialColCount; j++) {
genericPartialLocationNames[i][j].setTo(mzPartialLoc[i][j]);
// Add names to the trie
if ((j == 1 || j == 2) &&!genericPartialLocationNames[i][j].isEmpty()) {
ZoneStringInfo *zsinfo;
TimeZoneTranslationType type = (j == 1) ? GENERIC_LONG : GENERIC_SHORT;
zsinfo = new ZoneStringInfo(utzid, genericPartialLocationNames[i][j], type);
fZoneStringsTrie.put(genericPartialLocationNames[i][j], zsinfo, status);
if (U_FAILURE(status)) {
delete[] genericPartialLocationNames[i];
uprv_free(genericPartialLocationNames);
delete[] strings;
goto error_cleanup;
}
}
}
}
}
// Finally, create ZoneStrings instance and put it into the tzidToStinrgs map
ZoneStrings *zstrings = new ZoneStrings(strings, stringsCount, commonlyUsed,
genericPartialLocationNames, genericPartialRowCount, genericPartialColCount);
fTzidToStrings.put(utzid, zstrings, status);
if (U_FAILURE(status)) {
delete zstrings;
goto error_cleanup;
}
}
error_cleanup:
if (fallbackFmt != NULL) {
delete fallbackFmt;
}
if (regionFmt != NULL) {
delete regionFmt;
}
if (tzids != NULL) {
delete tzids;
}
ures_close(zoneItem);
ures_close(metazoneItem);
ures_close(zoneStringsArray);
}
ZoneStringFormat::~ZoneStringFormat() {
}
SafeZoneStringFormatPtr*
ZoneStringFormat::getZoneStringFormat(const Locale& locale, UErrorCode &status) {
umtx_lock(&gZSFCacheLock);
if (gZoneStringFormatCache == NULL) {
gZoneStringFormatCache = new ZSFCache(10 /* capacity */);
ucln_i18n_registerCleanup(UCLN_I18N_ZSFORMAT, zoneStringFormat_cleanup);
}
umtx_unlock(&gZSFCacheLock);
return gZoneStringFormatCache->get(locale, status);
}
UnicodeString**
ZoneStringFormat::createZoneStringsArray(UDate date, int32_t &rowCount, int32_t &colCount, UErrorCode &status) const {
if (U_FAILURE(status)) {
return NULL;
}
UnicodeString **result = NULL;
rowCount = 0;
colCount = 0;
// Collect canonical time zone IDs
UVector canonicalIDs(uhash_deleteUnicodeString, uhash_compareUnicodeString, status);
if (U_FAILURE(status)) {
return NULL;
}
StringEnumeration *tzids = TimeZone::createEnumeration();
const UChar *tzid;
while ((tzid = tzids->unext(NULL, status))) {
if (U_FAILURE(status)) {
delete tzids;
return NULL;
}
UnicodeString utzid(tzid);
UnicodeString canonicalID;
TimeZone::getCanonicalID(UnicodeString(tzid), canonicalID, status);
if (U_FAILURE(status)) {
// Ignore unknown ID - we should not get here, but just in case.
status = U_ZERO_ERROR;
continue;
}
if (utzid == canonicalID) {
canonicalIDs.addElement(new UnicodeString(utzid), status);
if (U_FAILURE(status)) {
delete tzids;
return NULL;
}
}
}
delete tzids;
// Allocate array
result = (UnicodeString**)uprv_malloc(canonicalIDs.size() * sizeof(UnicodeString*));
if (result == NULL) {
status = U_MEMORY_ALLOCATION_ERROR;
return NULL;
}
for (int32_t i = 0; i < canonicalIDs.size(); i++) {
result[i] = new UnicodeString[8];
UnicodeString *id = (UnicodeString*)canonicalIDs.elementAt(i);
result[i][0].setTo(*id);
getLongStandard(*id, date, result[i][1]);
getShortStandard(*id, date, FALSE, result[i][2]);
getLongDaylight(*id, date, result[i][3]);
getShortDaylight(*id, date, FALSE, result[i][4]);
getGenericLocation(*id, result[i][5]);
getLongGenericNonLocation(*id, date, result[i][6]);
getShortGenericNonLocation(*id, date, FALSE, result[i][7]);
}
rowCount = canonicalIDs.size();
colCount = 8;
return result;
}
UnicodeString&
ZoneStringFormat::getSpecificLongString(const Calendar &cal, UnicodeString &result,
UErrorCode &status) const {
result.remove();
if (U_FAILURE(status)) {
return result;
}
UnicodeString tzid;
cal.getTimeZone().getID(tzid);
UDate date = cal.getTime(status);
if (cal.get(UCAL_DST_OFFSET, status) == 0) {
return getString(tzid, ZSIDX_LONG_STANDARD, date, FALSE /*not used*/, result);
} else {
return getString(tzid, ZSIDX_LONG_DAYLIGHT, date, FALSE /*not used*/, result);
}
}
UnicodeString&
ZoneStringFormat::getSpecificShortString(const Calendar &cal, UBool commonlyUsedOnly,
UnicodeString &result, UErrorCode &status) const {
result.remove();
if (U_FAILURE(status)) {
return result;
}
UnicodeString tzid;
cal.getTimeZone().getID(tzid);
UDate date = cal.getTime(status);
if (cal.get(UCAL_DST_OFFSET, status) == 0) {
return getString(tzid, ZSIDX_SHORT_STANDARD, date, commonlyUsedOnly, result);
} else {
return getString(tzid, ZSIDX_SHORT_DAYLIGHT, date, commonlyUsedOnly, result);
}
}
UnicodeString&
ZoneStringFormat::getGenericLongString(const Calendar &cal, UnicodeString &result,
UErrorCode &status) const {
return getGenericString(cal, FALSE /*long*/, FALSE /* not used */, result, status);
}
UnicodeString&
ZoneStringFormat::getGenericShortString(const Calendar &cal, UBool commonlyUsedOnly,
UnicodeString &result, UErrorCode &status) const {
return getGenericString(cal, TRUE /*short*/, commonlyUsedOnly, result, status);
}
UnicodeString&
ZoneStringFormat::getGenericLocationString(const Calendar &cal, UnicodeString &result,
UErrorCode &status) const {
UnicodeString tzid;
cal.getTimeZone().getID(tzid);
UDate date = cal.getTime(status);
return getString(tzid, ZSIDX_LOCATION, date, FALSE /*not used*/, result);
}
const ZoneStringInfo*
ZoneStringFormat::findSpecificLong(const UnicodeString &text, int32_t start,
int32_t &matchLength, UErrorCode &status) const {
return find(text, start, STANDARD_LONG | DAYLIGHT_LONG, matchLength, status);
}
const ZoneStringInfo*
ZoneStringFormat::findSpecificShort(const UnicodeString &text, int32_t start,
int32_t &matchLength, UErrorCode &status) const {
return find(text, start, STANDARD_SHORT | DAYLIGHT_SHORT, matchLength, status);
}
const ZoneStringInfo*
ZoneStringFormat::findGenericLong(const UnicodeString &text, int32_t start,
int32_t &matchLength, UErrorCode &status) const {
return find(text, start, GENERIC_LONG | STANDARD_LONG | LOCATION, matchLength, status);
}
const ZoneStringInfo*
ZoneStringFormat::findGenericShort(const UnicodeString &text, int32_t start,
int32_t &matchLength, UErrorCode &status) const {
return find(text, start, GENERIC_SHORT | STANDARD_SHORT | LOCATION, matchLength, status);
}
const ZoneStringInfo*
ZoneStringFormat::findGenericLocation(const UnicodeString &text, int32_t start,
int32_t &matchLength, UErrorCode &status) const {
return find(text, start, LOCATION, matchLength, status);
}
UnicodeString&
ZoneStringFormat::getString(const UnicodeString &tzid, TimeZoneTranslationTypeIndex typeIdx, UDate date,
UBool commonlyUsedOnly, UnicodeString& result) const {
result.remove();
// ICU's own array does not have entries for aliases
UnicodeString canonicalID;
UErrorCode status = U_ZERO_ERROR;
TimeZone::getCanonicalID(tzid, canonicalID, status);
if (U_FAILURE(status)) {
// Unknown ID, but users might have their own data.
canonicalID.setTo(tzid);
}
if (fTzidToStrings.count() > 0) {
ZoneStrings *zstrings = (ZoneStrings*)fTzidToStrings.get(canonicalID);
if (zstrings != NULL) {
switch (typeIdx) {
case ZSIDX_LONG_STANDARD:
case ZSIDX_LONG_DAYLIGHT:
case ZSIDX_LONG_GENERIC:
case ZSIDX_LOCATION:
zstrings->getString(typeIdx, result);
break;
case ZSIDX_SHORT_STANDARD:
case ZSIDX_SHORT_DAYLIGHT:
case ZSIDX_COUNT: //added to avoid warning
case ZSIDX_SHORT_GENERIC:
if (!commonlyUsedOnly || zstrings->isShortFormatCommonlyUsed()) {
zstrings->getString(typeIdx, result);
}
break;
default:
break;
}
}
}
if (result.isEmpty() && fMzidToStrings.count() > 0 && typeIdx != ZSIDX_LOCATION) {
// Try metazone
UnicodeString mzid;
ZoneMeta::getMetazoneID(canonicalID, date, mzid);
if (!mzid.isEmpty()) {
ZoneStrings *mzstrings = (ZoneStrings*)fMzidToStrings.get(mzid);
if (mzstrings != NULL) {
switch (typeIdx) {
case ZSIDX_LONG_STANDARD:
case ZSIDX_LONG_DAYLIGHT:
case ZSIDX_LONG_GENERIC:
case ZSIDX_LOCATION:
mzstrings->getString(typeIdx, result);
break;
case ZSIDX_SHORT_STANDARD:
case ZSIDX_SHORT_DAYLIGHT:
case ZSIDX_COUNT: //added to avoid warning
case ZSIDX_SHORT_GENERIC:
if (!commonlyUsedOnly || mzstrings->isShortFormatCommonlyUsed()) {
mzstrings->getString(typeIdx, result);
}
break;
default:
break;
}
}
}
}
return result;
}
UnicodeString&
ZoneStringFormat::getGenericString(const Calendar &cal, UBool isShort, UBool commonlyUsedOnly,
UnicodeString &result, UErrorCode &status) const {
result.remove();
UDate time = cal.getTime(status);
if (U_FAILURE(status)) {
return result;
}
const TimeZone &tz = cal.getTimeZone();
UnicodeString tzid;
tz.getID(tzid);
// ICU's own array does not have entries for aliases
UnicodeString canonicalID;
TimeZone::getCanonicalID(tzid, canonicalID, status);
if (U_FAILURE(status)) {
// Unknown ID, but users might have their own data.
status = U_ZERO_ERROR;
canonicalID.setTo(tzid);
}
ZoneStrings *zstrings = NULL;
if (fTzidToStrings.count() > 0) {
zstrings = (ZoneStrings*)fTzidToStrings.get(canonicalID);
if (zstrings != NULL) {
if (isShort) {
if (!commonlyUsedOnly || zstrings->isShortFormatCommonlyUsed()) {
zstrings->getString(ZSIDX_SHORT_GENERIC, result);
}
} else {
zstrings->getString(ZSIDX_LONG_GENERIC, result);
}
}
}
if (result.isEmpty() && fMzidToStrings.count() > 0) {
// try metazone
int32_t raw, sav;
UnicodeString mzid;
ZoneMeta::getMetazoneID(canonicalID, time, mzid);
if (!mzid.isEmpty()) {
UBool useStandard = FALSE;
sav = cal.get(UCAL_DST_OFFSET, status);
if (U_FAILURE(status)) {
return result;
}
if (sav == 0) {
useStandard = TRUE;
// Check if the zone actually uses daylight saving time around the time
TimeZone *tmptz = tz.clone();
BasicTimeZone *btz = NULL;
if (tmptz->getDynamicClassID() == OlsonTimeZone::getStaticClassID()
|| tmptz->getDynamicClassID() == SimpleTimeZone::getStaticClassID()
|| tmptz->getDynamicClassID() == RuleBasedTimeZone::getStaticClassID()
|| tmptz->getDynamicClassID() == VTimeZone::getStaticClassID()) {
btz = (BasicTimeZone*)tmptz;
}
if (btz != NULL) {
TimeZoneTransition before;
UBool beforTrs = btz->getPreviousTransition(time, TRUE, before);
if (beforTrs
&& (time - before.getTime() < kDstCheckRange)
&& before.getFrom()->getDSTSavings() != 0) {
useStandard = FALSE;
} else {
TimeZoneTransition after;
UBool afterTrs = btz->getNextTransition(time, FALSE, after);
if (afterTrs
&& (after.getTime() - time < 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(time - kDstCheckRange, FALSE, raw, sav, status);
if (sav != 0) {
useStandard = FALSE;
} else {
tmptz->getOffset(time + kDstCheckRange, FALSE, raw, sav, status);
if (sav != 0){
useStandard = FALSE;
}
}
if (U_FAILURE(status)) {
delete tmptz;
result.remove();
return result;
}
}
delete tmptz;
}
if (useStandard) {
getString(canonicalID, (isShort ? ZSIDX_SHORT_STANDARD : ZSIDX_LONG_STANDARD),
time, commonlyUsedOnly, result);
// Note:
// In CLDR 1.5.1, a same localization is used for both generic and standard
// for some metazones in some locales. This is actually data bugs and should
// be resolved in later versions of CLDR. For now, we check if the standard
// name is different from its generic name below.
if (!result.isEmpty()) {
UnicodeString genericNonLocation;
getString(canonicalID, (isShort ? ZSIDX_SHORT_GENERIC : ZSIDX_LONG_GENERIC),
time, commonlyUsedOnly, genericNonLocation);
if (!genericNonLocation.isEmpty() && result == genericNonLocation) {
result.remove();
}
}
}
if (result.isEmpty()) {
ZoneStrings *mzstrings = (ZoneStrings*)fMzidToStrings.get(mzid);
if (mzstrings != NULL) {
if (isShort) {
if (!commonlyUsedOnly || mzstrings->isShortFormatCommonlyUsed()) {
mzstrings->getString(ZSIDX_SHORT_GENERIC, result);
}
} else {
mzstrings->getString(ZSIDX_LONG_GENERIC, result);
}
}
if (!result.isEmpty()) {
// Check if the offsets at the given time matches the preferred zone's offsets
UnicodeString preferredId;
UnicodeString region;
ZoneMeta::getZoneIdByMetazone(mzid, getRegion(region), preferredId);
if (canonicalID != preferredId) {
// Check if the offsets at the given time are identical with the preferred zone
raw = cal.get(UCAL_ZONE_OFFSET, status);
if (U_FAILURE(status)) {
result.remove();
return result;
}
TimeZone *preferredZone = TimeZone::createTimeZone(preferredId);
int32_t prfRaw, prfSav;
// Check offset in preferred time zone with wall time.
// With getOffset(time, false, preferredOffsets),
// you may get incorrect results because of time overlap at DST->STD
// transition.
preferredZone->getOffset(time + raw + sav, TRUE, prfRaw, prfSav, status);
delete preferredZone;
if (U_FAILURE(status)) {
result.remove();
return result;
}
if ((raw != prfRaw || sav != prfSav) && zstrings != NULL) {
// Use generic partial location string as fallback
zstrings->getGenericPartialLocationString(mzid, isShort, commonlyUsedOnly, result);
}
}
}
}
}
}
if (result.isEmpty()) {
// Use location format as the final fallback
getString(canonicalID, ZSIDX_LOCATION, time, FALSE /*not used*/, result);
}
return result;
}
UnicodeString&
ZoneStringFormat::getGenericPartialLocationString(const UnicodeString &tzid, UBool isShort,
UDate date, UBool commonlyUsedOnly, UnicodeString &result) const {
result.remove();
if (fTzidToStrings.count() <= 0) {
return result;
}
UnicodeString canonicalID;
UErrorCode status = U_ZERO_ERROR;
TimeZone::getCanonicalID(tzid, canonicalID, status);
if (U_FAILURE(status)) {
// Unknown ID, so no corresponding meta data.
return result;
}
UnicodeString mzid;
ZoneMeta::getMetazoneID(canonicalID, date, mzid);
if (!mzid.isEmpty()) {
ZoneStrings *zstrings = (ZoneStrings*)fTzidToStrings.get(canonicalID);
if (zstrings != NULL) {
zstrings->getGenericPartialLocationString(mzid, isShort, commonlyUsedOnly, result);
}
}
return result;
}
const ZoneStringInfo*
ZoneStringFormat::find(const UnicodeString &text, int32_t start, int32_t types,
int32_t &matchLength, UErrorCode &status) const {
matchLength = 0;
if (U_FAILURE(status)) {
return NULL;
}
if (fZoneStringsTrie.isEmpty()) {
return NULL;
}
const ZoneStringInfo *result = NULL;
const ZoneStringInfo *fallback = NULL;
int32_t fallbackMatchLen = 0;
ZoneStringSearchResultHandler handler(status);
fZoneStringsTrie.search(text, start, (TextTrieMapSearchResultHandler*)&handler, status);
if (U_SUCCESS(status)) {
int32_t numMatches = handler.countMatches();
for (int32_t i = 0; i < numMatches; i++) {
int32_t tmpMatchLen;
const ZoneStringInfo *tmp = handler.getMatch(i, tmpMatchLen);
if ((types & tmp->fType) != 0) {
if (result == NULL || matchLength < tmpMatchLen) {
result = tmp;
matchLength = tmpMatchLen;
} else if (matchLength == tmpMatchLen) {
// Tie breaker - there are some examples that a
// long standard name is identical with a location
// name - for example, "Uruguay Time". In this case,
// we interpret it as generic, not specific.
if (tmp->isGeneric() && !result->isGeneric()) {
result = tmp;
}
}
} else if (result == NULL) {
if (fallback == NULL || fallbackMatchLen < tmpMatchLen) {
fallback = tmp;
fallbackMatchLen = tmpMatchLen;
} else if (fallbackMatchLen == tmpMatchLen) {
if (tmp->isGeneric() && !fallback->isGeneric()) {
fallback = tmp;
}
}
}
}
if (result == NULL && fallback != NULL) {
result = fallback;
matchLength = fallbackMatchLen;
}
}
return result;
}
UnicodeString&
ZoneStringFormat::getRegion(UnicodeString ®ion) const {
const char* country = fLocale.getCountry();
// TODO: Utilize addLikelySubtag in Locale to resolve default region
// when the implementation is ready.
region.setTo(UnicodeString(country, -1, US_INV));
return region;
}
MessageFormat*
ZoneStringFormat::getFallbackFormat(const Locale &locale, UErrorCode &status) {
if (U_FAILURE(status)) {
return NULL;
}
UnicodeString pattern(TRUE, gDefFallbackPattern, -1);
UResourceBundle *zoneStringsArray = ures_open(NULL, locale.getName(), &status);
zoneStringsArray = ures_getByKeyWithFallback(zoneStringsArray, gZoneStringsTag, zoneStringsArray, &status);
int32_t len;
const UChar *flbkfmt = ures_getStringByKeyWithFallback(zoneStringsArray, gFallbackFormatTag, &len, &status);
if (U_SUCCESS(status)) {
pattern.setTo(flbkfmt);
} else {
status = U_ZERO_ERROR;
}
ures_close(zoneStringsArray);
MessageFormat *fallbackFmt = new MessageFormat(pattern, status);
return fallbackFmt;
}
MessageFormat*
ZoneStringFormat::getRegionFormat(const Locale& locale, UErrorCode &status) {
if (U_FAILURE(status)) {
return NULL;
}
UnicodeString pattern(TRUE, gDefRegionPattern, -1);
UResourceBundle *zoneStringsArray = ures_open(NULL, locale.getName(), &status);
zoneStringsArray = ures_getByKeyWithFallback(zoneStringsArray, gZoneStringsTag, zoneStringsArray, &status);
int32_t len;
const UChar *regionfmt = ures_getStringByKeyWithFallback(zoneStringsArray, gRegionFormatTag, &len, &status);
if (U_SUCCESS(status)) {
pattern.setTo(regionfmt);
} else {
status = U_ZERO_ERROR;
}
ures_close(zoneStringsArray);
MessageFormat *regionFmt = new MessageFormat(pattern, status);
return regionFmt;
}
const UChar*
ZoneStringFormat::getZoneStringFromBundle(const UResourceBundle *zoneitem, const char *key) {
const UChar *str = NULL;
if (zoneitem != NULL) {
UErrorCode status = U_ZERO_ERROR;
int32_t len;
str = ures_getStringByKeyWithFallback(zoneitem, key, &len, &status);
if (U_FAILURE(status)) {
str = NULL;
}
}
return str;
}
UBool
ZoneStringFormat::isCommonlyUsed(const UResourceBundle *zoneitem) {
if (zoneitem == NULL) {
return TRUE;
}
UBool commonlyUsed = FALSE;
UErrorCode status = U_ZERO_ERROR;
UResourceBundle *cuRes = ures_getByKey(zoneitem, gCommonlyUsedTag, NULL, &status);
int32_t cuValue = ures_getInt(cuRes, &status);
if (U_SUCCESS(status)) {
if (cuValue == 1) {
commonlyUsed = TRUE;
}
}
ures_close(cuRes);
return commonlyUsed;
}
UnicodeString&
ZoneStringFormat::getLocalizedCountry(const UnicodeString &countryCode, const Locale &locale, UnicodeString &displayCountry) {
// We do not want to use display country names only from the target language bundle
// Note: we should do this in better way.
displayCountry.remove();
int32_t ccLen = countryCode.length();
if (ccLen > 0 && ccLen < ULOC_COUNTRY_CAPACITY) {
UErrorCode status = U_ZERO_ERROR;
UResourceBundle *localeBundle = ures_open(NULL, locale.getName(), &status);
if (U_SUCCESS(status)) {
const char *bundleLocStr = ures_getLocale(localeBundle, &status);
if (U_SUCCESS(status) && uprv_strlen(bundleLocStr) > 0) {
Locale bundleLoc(bundleLocStr);
if (uprv_strcmp(bundleLocStr, "root") != 0 && uprv_strcmp(bundleLoc.getLanguage(), locale.getLanguage()) == 0) {
// Create a fake locale strings
char tmpLocStr[ULOC_COUNTRY_CAPACITY + 3];
uprv_strcpy(tmpLocStr, "xx_");
u_UCharsToChars(countryCode.getBuffer(), &tmpLocStr[3], ccLen);
tmpLocStr[3 + ccLen] = 0;
Locale tmpLoc(tmpLocStr);
tmpLoc.getDisplayCountry(locale, displayCountry);
}
}
}
ures_close(localeBundle);
}
if (displayCountry.isEmpty()) {
// Use the country code as the fallback
displayCountry.setTo(countryCode);
}
return displayCountry;
}
// ----------------------------------------------------------------------------
/*
* This constructor adopts the input UnicodeString arrays.
*/
ZoneStrings::ZoneStrings(UnicodeString *strings, int32_t stringsCount, UBool commonlyUsed,
UnicodeString **genericPartialLocationStrings, int32_t genericRowCount, int32_t genericColCount)
: fStrings(strings), fStringsCount(stringsCount), fIsCommonlyUsed(commonlyUsed),
fGenericPartialLocationStrings(genericPartialLocationStrings),
fGenericPartialLocationRowCount(genericRowCount), fGenericPartialLocationColCount(genericColCount) {
}
ZoneStrings::~ZoneStrings() {
if (fStrings != NULL) {
delete[] fStrings;
}
if (fGenericPartialLocationStrings != NULL) {
for (int32_t i = 0; i < fGenericPartialLocationRowCount; i++) {
delete[] fGenericPartialLocationStrings[i];
}
uprv_free(fGenericPartialLocationStrings);
}
}
UnicodeString&
ZoneStrings::getString(int32_t typeIdx, UnicodeString &result) const {
if (typeIdx >= 0 && typeIdx < fStringsCount) {
result.setTo(fStrings[typeIdx]);
} else {
result.remove();
}
return result;
}
UnicodeString&
ZoneStrings::getGenericPartialLocationString(const UnicodeString &mzid, UBool isShort,
UBool commonlyUsedOnly, UnicodeString &result) const {
UBool isSet = FALSE;
if (fGenericPartialLocationColCount >= 2) {
for (int32_t i = 0; i < fGenericPartialLocationRowCount; i++) {
if (fGenericPartialLocationStrings[i][0] == mzid) {
if (isShort) {
if (fGenericPartialLocationColCount >= 3) {
if (!commonlyUsedOnly ||
fGenericPartialLocationColCount == 3 || fGenericPartialLocationStrings[i][3].length() != 0) {
result.setTo(fGenericPartialLocationStrings[i][2]);
isSet = TRUE;
}
}
} else {
result.setTo(fGenericPartialLocationStrings[i][1]);
isSet = TRUE;
}
break;
}
}
}
if (!isSet) {
result.remove();
}
return result;
}
// --------------------------------------------------------------
SafeZoneStringFormatPtr::SafeZoneStringFormatPtr(ZSFCacheEntry *cacheEntry)
: fCacheEntry(cacheEntry) {
}
SafeZoneStringFormatPtr::~SafeZoneStringFormatPtr() {
fCacheEntry->delRef();
}
const ZoneStringFormat*
SafeZoneStringFormatPtr::get() const {
return fCacheEntry->getZoneStringFormat();
}
ZSFCacheEntry::ZSFCacheEntry(const Locale &locale, ZoneStringFormat *zsf, ZSFCacheEntry *next)
: fLocale(locale), fZoneStringFormat(zsf),
fNext(next), fRefCount(1)
{
}
ZSFCacheEntry::~ZSFCacheEntry () {
delete fZoneStringFormat;
}
const ZoneStringFormat*
ZSFCacheEntry::getZoneStringFormat(void) {
return (const ZoneStringFormat*)fZoneStringFormat;
}
void
ZSFCacheEntry::delRef(void) {
umtx_lock(&gZSFCacheLock);
--fRefCount;
umtx_unlock(&gZSFCacheLock);
}
ZSFCache::ZSFCache(int32_t capacity)
: fCapacity(capacity), fFirst(NULL) {
}
ZSFCache::~ZSFCache() {
ZSFCacheEntry *entry = fFirst;
while (entry) {
ZSFCacheEntry *next = entry->fNext;
delete entry;
entry = next;
}
}
SafeZoneStringFormatPtr*
ZSFCache::get(const Locale &locale, UErrorCode &status) {
SafeZoneStringFormatPtr *result = NULL;
// Search the cache entry list
ZSFCacheEntry *entry = NULL;
ZSFCacheEntry *next, *prev;
umtx_lock(&gZSFCacheLock);
entry = fFirst;
prev = NULL;
while (entry) {
next = entry->fNext;
if (entry->fLocale == locale) {
// Add reference count
entry->fRefCount++;
// move the entry to the top
if (entry != fFirst) {
prev->fNext = next;
entry->fNext = fFirst;
fFirst = entry;
}
break;
}
prev = entry;
entry = next;
}
umtx_unlock(&gZSFCacheLock);
// Create a new ZoneStringFormat
if (entry == NULL) {
ZoneStringFormat *zsf = new ZoneStringFormat(locale, status);
if (U_FAILURE(status)) {
delete zsf;
return NULL;
}
if (zsf == NULL) {
status = U_MEMORY_ALLOCATION_ERROR;
return NULL;
}
// Now add the new entry
umtx_lock(&gZSFCacheLock);
// Make sure no other threads already created the one for the same locale
entry = fFirst;
prev = NULL;
while (entry) {
next = entry->fNext;
if (entry->fLocale == locale) {
// Add reference count
entry->fRefCount++;
// move the entry to the top
if (entry != fFirst) {
prev->fNext = next;
entry->fNext = fFirst;
fFirst = entry;
}
break;
}
prev = entry;
entry = next;
}
if (entry == NULL) {
// Add the new one to the top
next = fFirst;
entry = new ZSFCacheEntry(locale, zsf, next);
fFirst = entry;
} else {
delete zsf;
}
umtx_unlock(&gZSFCacheLock);
}
result = new SafeZoneStringFormatPtr(entry);
// Now, delete unused cache entries beyond the capacity
umtx_lock(&gZSFCacheLock);
entry = fFirst;
prev = NULL;
int32_t idx = 1;
while (entry) {
next = entry->fNext;
if (idx >= fCapacity && entry->fRefCount == 0) {
if (entry == fFirst) {
fFirst = next;
} else {
prev->fNext = next;
}
delete entry;
} else {
prev = entry;
}
entry = next;
idx++;
}
umtx_unlock(&gZSFCacheLock);
return result;
}
U_NAMESPACE_END
#endif /* #if !UCONFIG_NO_FORMATTING */