godot/thirdparty/icu4c/common/ulocimp.h

415 lines
13 KiB
C++

// © 2016 and later: Unicode, Inc. and others.
// License & terms of use: http://www.unicode.org/copyright.html
/*
**********************************************************************
* Copyright (C) 2004-2016, International Business Machines
* Corporation and others. All Rights Reserved.
**********************************************************************
*/
#ifndef ULOCIMP_H
#define ULOCIMP_H
#include <cstddef>
#include "unicode/bytestream.h"
#include "unicode/uloc.h"
#include "charstr.h"
/**
* Create an iterator over the specified keywords list
* @param keywordList double-null terminated list. Will be copied.
* @param keywordListSize size in bytes of keywordList
* @param status err code
* @return enumeration (owned by caller) of the keyword list.
* @internal ICU 3.0
*/
U_CAPI UEnumeration* U_EXPORT2
uloc_openKeywordList(const char *keywordList, int32_t keywordListSize, UErrorCode* status);
/**
* Look up a resource bundle table item with fallback on the table level.
* This is accessible so it can be called by C++ code.
*/
U_CAPI const UChar * U_EXPORT2
uloc_getTableStringWithFallback(
const char *path,
const char *locale,
const char *tableKey,
const char *subTableKey,
const char *itemKey,
int32_t *pLength,
UErrorCode *pErrorCode);
namespace {
/*returns true if a is an ID separator false otherwise*/
inline bool _isIDSeparator(char a) { return a == '_' || a == '-'; }
} // namespace
U_CFUNC const char*
uloc_getCurrentCountryID(const char* oldID);
U_CFUNC const char*
uloc_getCurrentLanguageID(const char* oldID);
U_EXPORT icu::CharString
ulocimp_getKeywords(const char* localeID,
char prev,
bool valuesToo,
UErrorCode& status);
U_EXPORT void
ulocimp_getKeywords(const char* localeID,
char prev,
icu::ByteSink& sink,
bool valuesToo,
UErrorCode& status);
U_EXPORT icu::CharString
ulocimp_getName(const char* localeID,
UErrorCode& err);
U_EXPORT void
ulocimp_getName(const char* localeID,
icu::ByteSink& sink,
UErrorCode& err);
U_EXPORT icu::CharString
ulocimp_getBaseName(const char* localeID,
UErrorCode& err);
U_EXPORT void
ulocimp_getBaseName(const char* localeID,
icu::ByteSink& sink,
UErrorCode& err);
U_EXPORT icu::CharString
ulocimp_canonicalize(const char* localeID,
UErrorCode& err);
U_EXPORT void
ulocimp_canonicalize(const char* localeID,
icu::ByteSink& sink,
UErrorCode& err);
U_EXPORT icu::CharString
ulocimp_getKeywordValue(const char* localeID,
const char* keywordName,
UErrorCode& status);
U_EXPORT void
ulocimp_getKeywordValue(const char* localeID,
const char* keywordName,
icu::ByteSink& sink,
UErrorCode& status);
U_EXPORT icu::CharString
ulocimp_getLanguage(const char* localeID, UErrorCode& status);
U_EXPORT icu::CharString
ulocimp_getScript(const char* localeID, UErrorCode& status);
U_EXPORT icu::CharString
ulocimp_getRegion(const char* localeID, UErrorCode& status);
U_EXPORT icu::CharString
ulocimp_getVariant(const char* localeID, UErrorCode& status);
U_EXPORT void
ulocimp_setKeywordValue(const char* keywordName,
const char* keywordValue,
icu::CharString& localeID,
UErrorCode& status);
U_EXPORT int32_t
ulocimp_setKeywordValue(const char* keywords,
const char* keywordName,
const char* keywordValue,
icu::ByteSink& sink,
UErrorCode& status);
U_EXPORT void
ulocimp_getSubtags(
const char* localeID,
icu::CharString* language,
icu::CharString* script,
icu::CharString* region,
icu::CharString* variant,
const char** pEnd,
UErrorCode& status);
U_EXPORT void
ulocimp_getSubtags(
const char* localeID,
icu::ByteSink* language,
icu::ByteSink* script,
icu::ByteSink* region,
icu::ByteSink* variant,
const char** pEnd,
UErrorCode& status);
inline void
ulocimp_getSubtags(
const char* localeID,
std::nullptr_t,
std::nullptr_t,
std::nullptr_t,
std::nullptr_t,
const char** pEnd,
UErrorCode& status) {
ulocimp_getSubtags(
localeID,
static_cast<icu::ByteSink*>(nullptr),
static_cast<icu::ByteSink*>(nullptr),
static_cast<icu::ByteSink*>(nullptr),
static_cast<icu::ByteSink*>(nullptr),
pEnd,
status);
}
U_EXPORT icu::CharString
ulocimp_getParent(const char* localeID,
UErrorCode& err);
U_EXPORT void
ulocimp_getParent(const char* localeID,
icu::ByteSink& sink,
UErrorCode& err);
U_EXPORT icu::CharString
ulocimp_toLanguageTag(const char* localeID,
bool strict,
UErrorCode& status);
/**
* Writes a well-formed language tag for this locale ID.
*
* **Note**: When `strict` is false, any locale fields which do not satisfy the
* BCP47 syntax requirement will be omitted from the result. When `strict` is
* true, this function sets U_ILLEGAL_ARGUMENT_ERROR to the `err` if any locale
* fields do not satisfy the BCP47 syntax requirement.
*
* @param localeID the input locale ID
* @param sink the output sink receiving the BCP47 language
* tag for this Locale.
* @param strict boolean value indicating if the function returns
* an error for an ill-formed input locale ID.
* @param err error information if receiving the language
* tag failed.
* @return The length of the BCP47 language tag.
*
* @internal ICU 64
*/
U_EXPORT void
ulocimp_toLanguageTag(const char* localeID,
icu::ByteSink& sink,
bool strict,
UErrorCode& err);
U_EXPORT icu::CharString
ulocimp_forLanguageTag(const char* langtag,
int32_t tagLen,
int32_t* parsedLength,
UErrorCode& status);
/**
* Returns a locale ID for the specified BCP47 language tag string.
* If the specified language tag contains any ill-formed subtags,
* the first such subtag and all following subtags are ignored.
* <p>
* This implements the 'Language-Tag' production of BCP 47, and so
* supports legacy language tags (marked as “Type: grandfathered” in BCP 47)
* (regular and irregular) as well as private use language tags.
*
* Private use tags are represented as 'x-whatever',
* and legacy tags are converted to their canonical replacements where they exist.
*
* Note that a few legacy tags have no modern replacement;
* these will be converted using the fallback described in
* the first paragraph, so some information might be lost.
*
* @param langtag the input BCP47 language tag.
* @param tagLen the length of langtag, or -1 to call uprv_strlen().
* @param sink the output sink receiving a locale ID for the
* specified BCP47 language tag.
* @param parsedLength if not NULL, successfully parsed length
* for the input language tag is set.
* @param err error information if receiving the locald ID
* failed.
* @internal ICU 63
*/
U_EXPORT void
ulocimp_forLanguageTag(const char* langtag,
int32_t tagLen,
icu::ByteSink& sink,
int32_t* parsedLength,
UErrorCode& err);
/**
* Get the region to use for supplemental data lookup. Uses
* (1) any region specified by locale tag "rg"; if none then
* (2) any unicode_region_tag in the locale ID; if none then
* (3) if inferRegion is true, the region suggested by
* getLikelySubtags on the localeID.
* If no region is found, returns an empty string.
*
* @param localeID
* The complete locale ID (with keywords) from which
* to get the region to use for supplemental data.
* @param inferRegion
* If true, will try to infer region from localeID if
* no other region is found.
* @param status
* Pointer to in/out UErrorCode value for latest status.
* @return
* The region code found, empty if none found.
* @internal ICU 57
*/
U_EXPORT icu::CharString
ulocimp_getRegionForSupplementalData(const char *localeID, bool inferRegion,
UErrorCode& status);
U_EXPORT icu::CharString
ulocimp_addLikelySubtags(const char* localeID,
UErrorCode& status);
/**
* Add the likely subtags for a provided locale ID, per the algorithm described
* in the following CLDR technical report:
*
* http://www.unicode.org/reports/tr35/#Likely_Subtags
*
* If localeID is already in the maximal form, or there is no data available
* for maximization, it will be copied to the output buffer. For example,
* "und-Zzzz" cannot be maximized, since there is no reasonable maximization.
*
* Examples:
*
* "en" maximizes to "en_Latn_US"
*
* "de" maximizes to "de_Latn_US"
*
* "sr" maximizes to "sr_Cyrl_RS"
*
* "sh" maximizes to "sr_Latn_RS" (Note this will not reverse.)
*
* "zh_Hani" maximizes to "zh_Hans_CN" (Note this will not reverse.)
*
* @param localeID The locale to maximize
* @param sink The output sink receiving the maximized locale
* @param err Error information if maximizing the locale failed. If the length
* of the localeID and the null-terminator is greater than the maximum allowed size,
* or the localeId is not well-formed, the error code is U_ILLEGAL_ARGUMENT_ERROR.
* @internal ICU 64
*/
U_EXPORT void
ulocimp_addLikelySubtags(const char* localeID,
icu::ByteSink& sink,
UErrorCode& err);
U_EXPORT icu::CharString
ulocimp_minimizeSubtags(const char* localeID,
bool favorScript,
UErrorCode& status);
/**
* Minimize the subtags for a provided locale ID, per the algorithm described
* in the following CLDR technical report:
*
* http://www.unicode.org/reports/tr35/#Likely_Subtags
*
* If localeID is already in the minimal form, or there is no data available
* for minimization, it will be copied to the output buffer. Since the
* minimization algorithm relies on proper maximization, see the comments
* for ulocimp_addLikelySubtags for reasons why there might not be any data.
*
* Examples:
*
* "en_Latn_US" minimizes to "en"
*
* "de_Latn_US" minimizes to "de"
*
* "sr_Cyrl_RS" minimizes to "sr"
*
* "zh_Hant_TW" minimizes to "zh_TW" (The region is preferred to the
* script, and minimizing to "zh" would imply "zh_Hans_CN".)
*
* @param localeID The locale to minimize
* @param sink The output sink receiving the maximized locale
* @param favorScript favor to keep script if true, region if false.
* @param err Error information if minimizing the locale failed. If the length
* of the localeID and the null-terminator is greater than the maximum allowed size,
* or the localeId is not well-formed, the error code is U_ILLEGAL_ARGUMENT_ERROR.
* @internal ICU 64
*/
U_EXPORT void
ulocimp_minimizeSubtags(const char* localeID,
icu::ByteSink& sink,
bool favorScript,
UErrorCode& err);
U_CAPI const char * U_EXPORT2
locale_getKeywordsStart(const char *localeID);
bool
ultag_isExtensionSubtags(const char* s, int32_t len);
bool
ultag_isLanguageSubtag(const char* s, int32_t len);
bool
ultag_isPrivateuseValueSubtags(const char* s, int32_t len);
bool
ultag_isRegionSubtag(const char* s, int32_t len);
bool
ultag_isScriptSubtag(const char* s, int32_t len);
bool
ultag_isTransformedExtensionSubtags(const char* s, int32_t len);
bool
ultag_isUnicodeExtensionSubtags(const char* s, int32_t len);
bool
ultag_isUnicodeLocaleAttribute(const char* s, int32_t len);
bool
ultag_isUnicodeLocaleAttributes(const char* s, int32_t len);
bool
ultag_isUnicodeLocaleKey(const char* s, int32_t len);
bool
ultag_isUnicodeLocaleType(const char* s, int32_t len);
bool
ultag_isVariantSubtags(const char* s, int32_t len);
const char*
ultag_getTKeyStart(const char* localeID);
U_EXPORT const char*
ulocimp_toBcpKey(const char* key);
U_EXPORT const char*
ulocimp_toLegacyKey(const char* key);
U_EXPORT const char*
ulocimp_toBcpType(const char* key, const char* type, bool* isKnownKey, bool* isSpecialType);
U_EXPORT const char*
ulocimp_toLegacyType(const char* key, const char* type, bool* isKnownKey, bool* isSpecialType);
/* Function for testing purpose */
U_EXPORT const char* const*
ulocimp_getKnownCanonicalizedLocaleForTest(int32_t& length);
// Return true if the value is already canonicalized.
U_EXPORT bool
ulocimp_isCanonicalizedLocaleForTest(const char* localeName);
#endif