// © 2016 and later: Unicode, Inc. and others. // License & terms of use: http://www.unicode.org/copyright.html /* ******************************************************************************* * * Copyright (C) 1997-2016, International Business Machines * Corporation and others. All Rights Reserved. * ******************************************************************************* * file name: loclikely.cpp * encoding: UTF-8 * tab size: 8 (not used) * indentation:4 * * created on: 2010feb25 * created by: Markus W. Scherer * * Code for likely and minimized locale subtags, separated out from other .cpp files * that then do not depend on resource bundle code and likely-subtags data. */ #include "unicode/bytestream.h" #include "unicode/utypes.h" #include "unicode/locid.h" #include "unicode/putil.h" #include "unicode/uchar.h" #include "unicode/uloc.h" #include "unicode/ures.h" #include "unicode/uscript.h" #include "bytesinkutil.h" #include "charstr.h" #include "cmemory.h" #include "cstring.h" #include "ulocimp.h" #include "ustr_imp.h" /** * These are the canonical strings for unknown languages, scripts and regions. **/ static const char* const unknownLanguage = "und"; static const char* const unknownScript = "Zzzz"; static const char* const unknownRegion = "ZZ"; /** * This function looks for the localeID in the likelySubtags resource. * * @param localeID The tag to find. * @param buffer A buffer to hold the matching entry * @param bufferLength The length of the output buffer * @return A pointer to "buffer" if found, or a null pointer if not. */ static const char* U_CALLCONV findLikelySubtags(const char* localeID, char* buffer, int32_t bufferLength, UErrorCode* err) { const char* result = NULL; if (!U_FAILURE(*err)) { int32_t resLen = 0; const UChar* s = NULL; UErrorCode tmpErr = U_ZERO_ERROR; icu::LocalUResourceBundlePointer subtags(ures_openDirect(NULL, "likelySubtags", &tmpErr)); if (U_SUCCESS(tmpErr)) { icu::CharString und; if (localeID != NULL) { if (*localeID == '\0') { localeID = unknownLanguage; } else if (*localeID == '_') { und.append(unknownLanguage, *err); und.append(localeID, *err); if (U_FAILURE(*err)) { return NULL; } localeID = und.data(); } } s = ures_getStringByKey(subtags.getAlias(), localeID, &resLen, &tmpErr); if (U_FAILURE(tmpErr)) { /* * If a resource is missing, it's not really an error, it's * just that we don't have any data for that particular locale ID. */ if (tmpErr != U_MISSING_RESOURCE_ERROR) { *err = tmpErr; } } else if (resLen >= bufferLength) { /* The buffer should never overflow. */ *err = U_INTERNAL_PROGRAM_ERROR; } else { u_UCharsToChars(s, buffer, resLen + 1); if (resLen >= 3 && uprv_strnicmp(buffer, unknownLanguage, 3) == 0 && (resLen == 3 || buffer[3] == '_')) { uprv_memmove(buffer, buffer + 3, resLen - 3 + 1); } result = buffer; } } else { *err = tmpErr; } } return result; } /** * Append a tag to a buffer, adding the separator if necessary. The buffer * must be large enough to contain the resulting tag plus any separator * necessary. The tag must not be a zero-length string. * * @param tag The tag to add. * @param tagLength The length of the tag. * @param buffer The output buffer. * @param bufferLength The length of the output buffer. This is an input/ouput parameter. **/ static void U_CALLCONV appendTag( const char* tag, int32_t tagLength, char* buffer, int32_t* bufferLength, UBool withSeparator) { if (withSeparator) { buffer[*bufferLength] = '_'; ++(*bufferLength); } uprv_memmove( &buffer[*bufferLength], tag, tagLength); *bufferLength += tagLength; } /** * Create a tag string from the supplied parameters. The lang, script and region * parameters may be NULL pointers. If they are, their corresponding length parameters * must be less than or equal to 0. * * If any of the language, script or region parameters are empty, and the alternateTags * parameter is not NULL, it will be parsed for potential language, script and region tags * to be used when constructing the new tag. If the alternateTags parameter is NULL, or * it contains no language tag, the default tag for the unknown language is used. * * If the length of the new string exceeds the capacity of the output buffer, * the function copies as many bytes to the output buffer as it can, and returns * the error U_BUFFER_OVERFLOW_ERROR. * * If an illegal argument is provided, the function returns the error * U_ILLEGAL_ARGUMENT_ERROR. * * Note that this function can return the warning U_STRING_NOT_TERMINATED_WARNING if * the tag string fits in the output buffer, but the null terminator doesn't. * * @param lang The language tag to use. * @param langLength The length of the language tag. * @param script The script tag to use. * @param scriptLength The length of the script tag. * @param region The region tag to use. * @param regionLength The length of the region tag. * @param trailing Any trailing data to append to the new tag. * @param trailingLength The length of the trailing data. * @param alternateTags A string containing any alternate tags. * @param sink The output sink receiving the tag string. * @param err A pointer to a UErrorCode for error reporting. **/ static void U_CALLCONV createTagStringWithAlternates( const char* lang, int32_t langLength, const char* script, int32_t scriptLength, const char* region, int32_t regionLength, const char* trailing, int32_t trailingLength, const char* alternateTags, icu::ByteSink& sink, UErrorCode* err) { if (U_FAILURE(*err)) { goto error; } else if (langLength >= ULOC_LANG_CAPACITY || scriptLength >= ULOC_SCRIPT_CAPACITY || regionLength >= ULOC_COUNTRY_CAPACITY) { goto error; } else { /** * ULOC_FULLNAME_CAPACITY will provide enough capacity * that we can build a string that contains the language, * script and region code without worrying about overrunning * the user-supplied buffer. **/ char tagBuffer[ULOC_FULLNAME_CAPACITY]; int32_t tagLength = 0; UBool regionAppended = FALSE; if (langLength > 0) { appendTag( lang, langLength, tagBuffer, &tagLength, /*withSeparator=*/FALSE); } else if (alternateTags == NULL) { /* * Use the empty string for an unknown language, if * we found no language. */ } else { /* * Parse the alternateTags string for the language. */ char alternateLang[ULOC_LANG_CAPACITY]; int32_t alternateLangLength = sizeof(alternateLang); alternateLangLength = uloc_getLanguage( alternateTags, alternateLang, alternateLangLength, err); if(U_FAILURE(*err) || alternateLangLength >= ULOC_LANG_CAPACITY) { goto error; } else if (alternateLangLength == 0) { /* * Use the empty string for an unknown language, if * we found no language. */ } else { appendTag( alternateLang, alternateLangLength, tagBuffer, &tagLength, /*withSeparator=*/FALSE); } } if (scriptLength > 0) { appendTag( script, scriptLength, tagBuffer, &tagLength, /*withSeparator=*/TRUE); } else if (alternateTags != NULL) { /* * Parse the alternateTags string for the script. */ char alternateScript[ULOC_SCRIPT_CAPACITY]; const int32_t alternateScriptLength = uloc_getScript( alternateTags, alternateScript, sizeof(alternateScript), err); if (U_FAILURE(*err) || alternateScriptLength >= ULOC_SCRIPT_CAPACITY) { goto error; } else if (alternateScriptLength > 0) { appendTag( alternateScript, alternateScriptLength, tagBuffer, &tagLength, /*withSeparator=*/TRUE); } } if (regionLength > 0) { appendTag( region, regionLength, tagBuffer, &tagLength, /*withSeparator=*/TRUE); regionAppended = TRUE; } else if (alternateTags != NULL) { /* * Parse the alternateTags string for the region. */ char alternateRegion[ULOC_COUNTRY_CAPACITY]; const int32_t alternateRegionLength = uloc_getCountry( alternateTags, alternateRegion, sizeof(alternateRegion), err); if (U_FAILURE(*err) || alternateRegionLength >= ULOC_COUNTRY_CAPACITY) { goto error; } else if (alternateRegionLength > 0) { appendTag( alternateRegion, alternateRegionLength, tagBuffer, &tagLength, /*withSeparator=*/TRUE); regionAppended = TRUE; } } /** * Copy the partial tag from our internal buffer to the supplied * target. **/ sink.Append(tagBuffer, tagLength); if (trailingLength > 0) { if (*trailing != '@') { sink.Append("_", 1); if (!regionAppended) { /* extra separator is required */ sink.Append("_", 1); } } /* * Copy the trailing data into the supplied buffer. */ sink.Append(trailing, trailingLength); } return; } error: /** * An overflow indicates the locale ID passed in * is ill-formed. If we got here, and there was * no previous error, it's an implicit overflow. **/ if (*err == U_BUFFER_OVERFLOW_ERROR || U_SUCCESS(*err)) { *err = U_ILLEGAL_ARGUMENT_ERROR; } } /** * Create a tag string from the supplied parameters. The lang, script and region * parameters may be NULL pointers. If they are, their corresponding length parameters * must be less than or equal to 0. If the lang parameter is an empty string, the * default value for an unknown language is written to the output buffer. * * If the length of the new string exceeds the capacity of the output buffer, * the function copies as many bytes to the output buffer as it can, and returns * the error U_BUFFER_OVERFLOW_ERROR. * * If an illegal argument is provided, the function returns the error * U_ILLEGAL_ARGUMENT_ERROR. * * @param lang The language tag to use. * @param langLength The length of the language tag. * @param script The script tag to use. * @param scriptLength The length of the script tag. * @param region The region tag to use. * @param regionLength The length of the region tag. * @param trailing Any trailing data to append to the new tag. * @param trailingLength The length of the trailing data. * @param sink The output sink receiving the tag string. * @param err A pointer to a UErrorCode for error reporting. **/ static void U_CALLCONV createTagString( const char* lang, int32_t langLength, const char* script, int32_t scriptLength, const char* region, int32_t regionLength, const char* trailing, int32_t trailingLength, icu::ByteSink& sink, UErrorCode* err) { createTagStringWithAlternates( lang, langLength, script, scriptLength, region, regionLength, trailing, trailingLength, NULL, sink, err); } /** * Parse the language, script, and region subtags from a tag string, and copy the * results into the corresponding output parameters. The buffers are null-terminated, * unless overflow occurs. * * The langLength, scriptLength, and regionLength parameters are input/output * parameters, and must contain the capacity of their corresponding buffers on * input. On output, they will contain the actual length of the buffers, not * including the null terminator. * * If the length of any of the output subtags exceeds the capacity of the corresponding * buffer, the function copies as many bytes to the output buffer as it can, and returns * the error U_BUFFER_OVERFLOW_ERROR. It will not parse any more subtags once overflow * occurs. * * If an illegal argument is provided, the function returns the error * U_ILLEGAL_ARGUMENT_ERROR. * * @param localeID The locale ID to parse. * @param lang The language tag buffer. * @param langLength The length of the language tag. * @param script The script tag buffer. * @param scriptLength The length of the script tag. * @param region The region tag buffer. * @param regionLength The length of the region tag. * @param err A pointer to a UErrorCode for error reporting. * @return The number of chars of the localeID parameter consumed. **/ static int32_t U_CALLCONV parseTagString( const char* localeID, char* lang, int32_t* langLength, char* script, int32_t* scriptLength, char* region, int32_t* regionLength, UErrorCode* err) { const char* position = localeID; int32_t subtagLength = 0; if(U_FAILURE(*err) || localeID == NULL || lang == NULL || langLength == NULL || script == NULL || scriptLength == NULL || region == NULL || regionLength == NULL) { goto error; } subtagLength = ulocimp_getLanguage(position, lang, *langLength, &position); u_terminateChars(lang, *langLength, subtagLength, err); /* * Note that we explicit consider U_STRING_NOT_TERMINATED_WARNING * to be an error, because it indicates the user-supplied tag is * not well-formed. */ if(U_FAILURE(*err)) { goto error; } *langLength = subtagLength; /* * If no language was present, use the empty string instead. * Otherwise, move past any separator. */ if (_isIDSeparator(*position)) { ++position; } subtagLength = ulocimp_getScript(position, script, *scriptLength, &position); u_terminateChars(script, *scriptLength, subtagLength, err); if(U_FAILURE(*err)) { goto error; } *scriptLength = subtagLength; if (*scriptLength > 0) { if (uprv_strnicmp(script, unknownScript, *scriptLength) == 0) { /** * If the script part is the "unknown" script, then don't return it. **/ *scriptLength = 0; } /* * Move past any separator. */ if (_isIDSeparator(*position)) { ++position; } } subtagLength = ulocimp_getCountry(position, region, *regionLength, &position); u_terminateChars(region, *regionLength, subtagLength, err); if(U_FAILURE(*err)) { goto error; } *regionLength = subtagLength; if (*regionLength > 0) { if (uprv_strnicmp(region, unknownRegion, *regionLength) == 0) { /** * If the region part is the "unknown" region, then don't return it. **/ *regionLength = 0; } } else if (*position != 0 && *position != '@') { /* back up over consumed trailing separator */ --position; } exit: return (int32_t)(position - localeID); error: /** * If we get here, we have no explicit error, it's the result of an * illegal argument. **/ if (!U_FAILURE(*err)) { *err = U_ILLEGAL_ARGUMENT_ERROR; } goto exit; } static UBool U_CALLCONV createLikelySubtagsString( const char* lang, int32_t langLength, const char* script, int32_t scriptLength, const char* region, int32_t regionLength, const char* variants, int32_t variantsLength, icu::ByteSink& sink, UErrorCode* err) { /** * ULOC_FULLNAME_CAPACITY will provide enough capacity * that we can build a string that contains the language, * script and region code without worrying about overrunning * the user-supplied buffer. **/ char likelySubtagsBuffer[ULOC_FULLNAME_CAPACITY]; if(U_FAILURE(*err)) { goto error; } /** * Try the language with the script and region first. **/ if (scriptLength > 0 && regionLength > 0) { const char* likelySubtags = NULL; icu::CharString tagBuffer; { icu::CharStringByteSink sink(&tagBuffer); createTagString( lang, langLength, script, scriptLength, region, regionLength, NULL, 0, sink, err); } if(U_FAILURE(*err)) { goto error; } likelySubtags = findLikelySubtags( tagBuffer.data(), likelySubtagsBuffer, sizeof(likelySubtagsBuffer), err); if(U_FAILURE(*err)) { goto error; } if (likelySubtags != NULL) { /* Always use the language tag from the maximal string, since it may be more specific than the one provided. */ createTagStringWithAlternates( NULL, 0, NULL, 0, NULL, 0, variants, variantsLength, likelySubtags, sink, err); return TRUE; } } /** * Try the language with just the script. **/ if (scriptLength > 0) { const char* likelySubtags = NULL; icu::CharString tagBuffer; { icu::CharStringByteSink sink(&tagBuffer); createTagString( lang, langLength, script, scriptLength, NULL, 0, NULL, 0, sink, err); } if(U_FAILURE(*err)) { goto error; } likelySubtags = findLikelySubtags( tagBuffer.data(), likelySubtagsBuffer, sizeof(likelySubtagsBuffer), err); if(U_FAILURE(*err)) { goto error; } if (likelySubtags != NULL) { /* Always use the language tag from the maximal string, since it may be more specific than the one provided. */ createTagStringWithAlternates( NULL, 0, NULL, 0, region, regionLength, variants, variantsLength, likelySubtags, sink, err); return TRUE; } } /** * Try the language with just the region. **/ if (regionLength > 0) { const char* likelySubtags = NULL; icu::CharString tagBuffer; { icu::CharStringByteSink sink(&tagBuffer); createTagString( lang, langLength, NULL, 0, region, regionLength, NULL, 0, sink, err); } if(U_FAILURE(*err)) { goto error; } likelySubtags = findLikelySubtags( tagBuffer.data(), likelySubtagsBuffer, sizeof(likelySubtagsBuffer), err); if(U_FAILURE(*err)) { goto error; } if (likelySubtags != NULL) { /* Always use the language tag from the maximal string, since it may be more specific than the one provided. */ createTagStringWithAlternates( NULL, 0, script, scriptLength, NULL, 0, variants, variantsLength, likelySubtags, sink, err); return TRUE; } } /** * Finally, try just the language. **/ { const char* likelySubtags = NULL; icu::CharString tagBuffer; { icu::CharStringByteSink sink(&tagBuffer); createTagString( lang, langLength, NULL, 0, NULL, 0, NULL, 0, sink, err); } if(U_FAILURE(*err)) { goto error; } likelySubtags = findLikelySubtags( tagBuffer.data(), likelySubtagsBuffer, sizeof(likelySubtagsBuffer), err); if(U_FAILURE(*err)) { goto error; } if (likelySubtags != NULL) { /* Always use the language tag from the maximal string, since it may be more specific than the one provided. */ createTagStringWithAlternates( NULL, 0, script, scriptLength, region, regionLength, variants, variantsLength, likelySubtags, sink, err); return TRUE; } } return FALSE; error: if (!U_FAILURE(*err)) { *err = U_ILLEGAL_ARGUMENT_ERROR; } return FALSE; } #define CHECK_TRAILING_VARIANT_SIZE(trailing, trailingLength) UPRV_BLOCK_MACRO_BEGIN { \ int32_t count = 0; \ int32_t i; \ for (i = 0; i < trailingLength; i++) { \ if (trailing[i] == '-' || trailing[i] == '_') { \ count = 0; \ if (count > 8) { \ goto error; \ } \ } else if (trailing[i] == '@') { \ break; \ } else if (count > 8) { \ goto error; \ } else { \ count++; \ } \ } \ } UPRV_BLOCK_MACRO_END static void _uloc_addLikelySubtags(const char* localeID, icu::ByteSink& sink, UErrorCode* err) { char lang[ULOC_LANG_CAPACITY]; int32_t langLength = sizeof(lang); char script[ULOC_SCRIPT_CAPACITY]; int32_t scriptLength = sizeof(script); char region[ULOC_COUNTRY_CAPACITY]; int32_t regionLength = sizeof(region); const char* trailing = ""; int32_t trailingLength = 0; int32_t trailingIndex = 0; UBool success = FALSE; if(U_FAILURE(*err)) { goto error; } if (localeID == NULL) { goto error; } trailingIndex = parseTagString( localeID, lang, &langLength, script, &scriptLength, region, ®ionLength, err); if(U_FAILURE(*err)) { /* Overflow indicates an illegal argument error */ if (*err == U_BUFFER_OVERFLOW_ERROR) { *err = U_ILLEGAL_ARGUMENT_ERROR; } goto error; } /* Find the length of the trailing portion. */ while (_isIDSeparator(localeID[trailingIndex])) { trailingIndex++; } trailing = &localeID[trailingIndex]; trailingLength = (int32_t)uprv_strlen(trailing); CHECK_TRAILING_VARIANT_SIZE(trailing, trailingLength); success = createLikelySubtagsString( lang, langLength, script, scriptLength, region, regionLength, trailing, trailingLength, sink, err); if (!success) { const int32_t localIDLength = (int32_t)uprv_strlen(localeID); /* * If we get here, we need to return localeID. */ sink.Append(localeID, localIDLength); } return; error: if (!U_FAILURE(*err)) { *err = U_ILLEGAL_ARGUMENT_ERROR; } } static void _uloc_minimizeSubtags(const char* localeID, icu::ByteSink& sink, UErrorCode* err) { icu::CharString maximizedTagBuffer; char lang[ULOC_LANG_CAPACITY]; int32_t langLength = sizeof(lang); char script[ULOC_SCRIPT_CAPACITY]; int32_t scriptLength = sizeof(script); char region[ULOC_COUNTRY_CAPACITY]; int32_t regionLength = sizeof(region); const char* trailing = ""; int32_t trailingLength = 0; int32_t trailingIndex = 0; if(U_FAILURE(*err)) { goto error; } else if (localeID == NULL) { goto error; } trailingIndex = parseTagString( localeID, lang, &langLength, script, &scriptLength, region, ®ionLength, err); if(U_FAILURE(*err)) { /* Overflow indicates an illegal argument error */ if (*err == U_BUFFER_OVERFLOW_ERROR) { *err = U_ILLEGAL_ARGUMENT_ERROR; } goto error; } /* Find the spot where the variants or the keywords begin, if any. */ while (_isIDSeparator(localeID[trailingIndex])) { trailingIndex++; } trailing = &localeID[trailingIndex]; trailingLength = (int32_t)uprv_strlen(trailing); CHECK_TRAILING_VARIANT_SIZE(trailing, trailingLength); { icu::CharString base; { icu::CharStringByteSink sink(&base); createTagString( lang, langLength, script, scriptLength, region, regionLength, NULL, 0, sink, err); } /** * First, we need to first get the maximization * from AddLikelySubtags. **/ { icu::CharStringByteSink sink(&maximizedTagBuffer); ulocimp_addLikelySubtags(base.data(), sink, err); } } if(U_FAILURE(*err)) { goto error; } /** * Start first with just the language. **/ { icu::CharString tagBuffer; { icu::CharStringByteSink sink(&tagBuffer); createLikelySubtagsString( lang, langLength, NULL, 0, NULL, 0, NULL, 0, sink, err); } if(U_FAILURE(*err)) { goto error; } else if (!tagBuffer.isEmpty() && uprv_strnicmp( maximizedTagBuffer.data(), tagBuffer.data(), tagBuffer.length()) == 0) { createTagString( lang, langLength, NULL, 0, NULL, 0, trailing, trailingLength, sink, err); return; } } /** * Next, try the language and region. **/ if (regionLength > 0) { icu::CharString tagBuffer; { icu::CharStringByteSink sink(&tagBuffer); createLikelySubtagsString( lang, langLength, NULL, 0, region, regionLength, NULL, 0, sink, err); } if(U_FAILURE(*err)) { goto error; } else if (!tagBuffer.isEmpty() && uprv_strnicmp( maximizedTagBuffer.data(), tagBuffer.data(), tagBuffer.length()) == 0) { createTagString( lang, langLength, NULL, 0, region, regionLength, trailing, trailingLength, sink, err); return; } } /** * Finally, try the language and script. This is our last chance, * since trying with all three subtags would only yield the * maximal version that we already have. **/ if (scriptLength > 0 && regionLength > 0) { icu::CharString tagBuffer; { icu::CharStringByteSink sink(&tagBuffer); createLikelySubtagsString( lang, langLength, script, scriptLength, NULL, 0, NULL, 0, sink, err); } if(U_FAILURE(*err)) { goto error; } else if (!tagBuffer.isEmpty() && uprv_strnicmp( maximizedTagBuffer.data(), tagBuffer.data(), tagBuffer.length()) == 0) { createTagString( lang, langLength, script, scriptLength, NULL, 0, trailing, trailingLength, sink, err); return; } } { /** * If we got here, return the locale ID parameter. **/ const int32_t localeIDLength = (int32_t)uprv_strlen(localeID); sink.Append(localeID, localeIDLength); return; } error: if (!U_FAILURE(*err)) { *err = U_ILLEGAL_ARGUMENT_ERROR; } } static UBool do_canonicalize(const char* localeID, char* buffer, int32_t bufferCapacity, UErrorCode* err) { uloc_canonicalize( localeID, buffer, bufferCapacity, err); if (*err == U_STRING_NOT_TERMINATED_WARNING || *err == U_BUFFER_OVERFLOW_ERROR) { *err = U_ILLEGAL_ARGUMENT_ERROR; return FALSE; } else if (U_FAILURE(*err)) { return FALSE; } else { return TRUE; } } U_CAPI int32_t U_EXPORT2 uloc_addLikelySubtags(const char* localeID, char* maximizedLocaleID, int32_t maximizedLocaleIDCapacity, UErrorCode* status) { if (U_FAILURE(*status)) { return 0; } icu::CheckedArrayByteSink sink( maximizedLocaleID, maximizedLocaleIDCapacity); ulocimp_addLikelySubtags(localeID, sink, status); int32_t reslen = sink.NumberOfBytesAppended(); if (U_FAILURE(*status)) { return sink.Overflowed() ? reslen : -1; } if (sink.Overflowed()) { *status = U_BUFFER_OVERFLOW_ERROR; } else { u_terminateChars( maximizedLocaleID, maximizedLocaleIDCapacity, reslen, status); } return reslen; } U_CAPI void U_EXPORT2 ulocimp_addLikelySubtags(const char* localeID, icu::ByteSink& sink, UErrorCode* status) { char localeBuffer[ULOC_FULLNAME_CAPACITY]; if (do_canonicalize(localeID, localeBuffer, sizeof localeBuffer, status)) { _uloc_addLikelySubtags(localeBuffer, sink, status); } } U_CAPI int32_t U_EXPORT2 uloc_minimizeSubtags(const char* localeID, char* minimizedLocaleID, int32_t minimizedLocaleIDCapacity, UErrorCode* status) { if (U_FAILURE(*status)) { return 0; } icu::CheckedArrayByteSink sink( minimizedLocaleID, minimizedLocaleIDCapacity); ulocimp_minimizeSubtags(localeID, sink, status); int32_t reslen = sink.NumberOfBytesAppended(); if (U_FAILURE(*status)) { return sink.Overflowed() ? reslen : -1; } if (sink.Overflowed()) { *status = U_BUFFER_OVERFLOW_ERROR; } else { u_terminateChars( minimizedLocaleID, minimizedLocaleIDCapacity, reslen, status); } return reslen; } U_CAPI void U_EXPORT2 ulocimp_minimizeSubtags(const char* localeID, icu::ByteSink& sink, UErrorCode* status) { char localeBuffer[ULOC_FULLNAME_CAPACITY]; if (do_canonicalize(localeID, localeBuffer, sizeof localeBuffer, status)) { _uloc_minimizeSubtags(localeBuffer, sink, status); } } // Pairs of (language subtag, + or -) for finding out fast if common languages // are LTR (minus) or RTL (plus). static const char LANG_DIR_STRING[] = "root-en-es-pt-zh-ja-ko-de-fr-it-ar+he+fa+ru-nl-pl-th-tr-"; // Implemented here because this calls ulocimp_addLikelySubtags(). U_CAPI UBool U_EXPORT2 uloc_isRightToLeft(const char *locale) { UErrorCode errorCode = U_ZERO_ERROR; char script[8]; int32_t scriptLength = uloc_getScript(locale, script, UPRV_LENGTHOF(script), &errorCode); if (U_FAILURE(errorCode) || errorCode == U_STRING_NOT_TERMINATED_WARNING || scriptLength == 0) { // Fastpath: We know the likely scripts and their writing direction // for some common languages. errorCode = U_ZERO_ERROR; char lang[8]; int32_t langLength = uloc_getLanguage(locale, lang, UPRV_LENGTHOF(lang), &errorCode); if (U_FAILURE(errorCode) || errorCode == U_STRING_NOT_TERMINATED_WARNING) { return FALSE; } if (langLength > 0) { const char* langPtr = uprv_strstr(LANG_DIR_STRING, lang); if (langPtr != NULL) { switch (langPtr[langLength]) { case '-': return FALSE; case '+': return TRUE; default: break; // partial match of a longer code } } } // Otherwise, find the likely script. errorCode = U_ZERO_ERROR; icu::CharString likely; { icu::CharStringByteSink sink(&likely); ulocimp_addLikelySubtags(locale, sink, &errorCode); } if (U_FAILURE(errorCode) || errorCode == U_STRING_NOT_TERMINATED_WARNING) { return FALSE; } scriptLength = uloc_getScript(likely.data(), script, UPRV_LENGTHOF(script), &errorCode); if (U_FAILURE(errorCode) || errorCode == U_STRING_NOT_TERMINATED_WARNING || scriptLength == 0) { return FALSE; } } UScriptCode scriptCode = (UScriptCode)u_getPropertyValueEnum(UCHAR_SCRIPT, script); return uscript_isRightToLeft(scriptCode); } U_NAMESPACE_BEGIN UBool Locale::isRightToLeft() const { return uloc_isRightToLeft(getBaseName()); } U_NAMESPACE_END // The following must at least allow for rg key value (6) plus terminator (1). #define ULOC_RG_BUFLEN 8 U_CAPI int32_t U_EXPORT2 ulocimp_getRegionForSupplementalData(const char *localeID, UBool inferRegion, char *region, int32_t regionCapacity, UErrorCode* status) { if (U_FAILURE(*status)) { return 0; } char rgBuf[ULOC_RG_BUFLEN]; UErrorCode rgStatus = U_ZERO_ERROR; // First check for rg keyword value int32_t rgLen = uloc_getKeywordValue(localeID, "rg", rgBuf, ULOC_RG_BUFLEN, &rgStatus); if (U_FAILURE(rgStatus) || rgLen != 6) { rgLen = 0; } else { // rgBuf guaranteed to be zero terminated here, with text len 6 char *rgPtr = rgBuf; for (; *rgPtr!= 0; rgPtr++) { *rgPtr = uprv_toupper(*rgPtr); } rgLen = (uprv_strcmp(rgBuf+2, "ZZZZ") == 0)? 2: 0; } if (rgLen == 0) { // No valid rg keyword value, try for unicode_region_subtag rgLen = uloc_getCountry(localeID, rgBuf, ULOC_RG_BUFLEN, status); if (U_FAILURE(*status)) { rgLen = 0; } else if (rgLen == 0 && inferRegion) { // no unicode_region_subtag but inferRegion TRUE, try likely subtags rgStatus = U_ZERO_ERROR; icu::CharString locBuf; { icu::CharStringByteSink sink(&locBuf); ulocimp_addLikelySubtags(localeID, sink, &rgStatus); } if (U_SUCCESS(rgStatus)) { rgLen = uloc_getCountry(locBuf.data(), rgBuf, ULOC_RG_BUFLEN, status); if (U_FAILURE(*status)) { rgLen = 0; } } } } rgBuf[rgLen] = 0; uprv_strncpy(region, rgBuf, regionCapacity); return u_terminateChars(region, regionCapacity, rgLen, status); }