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|
/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
/* Portions Copyright Norbert Lindenberg 2011-2012. */
/*global JSMSG_INTL_OBJECT_NOT_INITED: false, JSMSG_INVALID_LOCALES_ELEMENT: false,
JSMSG_INVALID_LANGUAGE_TAG: false, JSMSG_INVALID_LOCALE_MATCHER: false,
JSMSG_INVALID_OPTION_VALUE: false, JSMSG_INVALID_DIGITS_VALUE: false,
JSMSG_INTL_OBJECT_REINITED: false, JSMSG_INVALID_CURRENCY_CODE: false,
JSMSG_UNDEFINED_CURRENCY: false, JSMSG_INVALID_TIME_ZONE: false,
JSMSG_DATE_NOT_FINITE: false, JSMSG_INVALID_KEYS_TYPE: false,
JSMSG_INVALID_KEY: false,
intl_Collator_availableLocales: false,
intl_availableCollations: false,
intl_CompareStrings: false,
intl_NumberFormat_availableLocales: false,
intl_numberingSystem: false,
intl_FormatNumber: false,
intl_DateTimeFormat_availableLocales: false,
intl_availableCalendars: false,
intl_patternForSkeleton: false,
intl_FormatDateTime: false,
intl_SelectPluralRule: false,
intl_GetPluralCategories: false,
intl_GetCalendarInfo: false,
*/
/*
* The Intl module specified by standard ECMA-402,
* ECMAScript Internationalization API Specification.
*/
/********** Locales, Time Zones, and Currencies **********/
/**
* Convert s to upper case, but limited to characters a-z.
*
* Spec: ECMAScript Internationalization API Specification, 6.1.
*/
function toASCIIUpperCase(s) {
assert(typeof s === "string", "toASCIIUpperCase");
// String.prototype.toUpperCase may map non-ASCII characters into ASCII,
// so go character by character (actually code unit by code unit, but
// since we only care about ASCII characters here, that's OK).
var result = "";
for (var i = 0; i < s.length; i++) {
var c = callFunction(std_String_charCodeAt, s, i);
result += (0x61 <= c && c <= 0x7A)
? callFunction(std_String_fromCharCode, null, c & ~0x20)
: s[i];
}
return result;
}
/**
* Holder object for encapsulating regexp instances.
*
* Regular expression instances should be created after the initialization of
* self-hosted global.
*/
var internalIntlRegExps = std_Object_create(null);
internalIntlRegExps.unicodeLocaleExtensionSequenceRE = null;
internalIntlRegExps.languageTagRE = null;
internalIntlRegExps.duplicateVariantRE = null;
internalIntlRegExps.duplicateSingletonRE = null;
internalIntlRegExps.isWellFormedCurrencyCodeRE = null;
internalIntlRegExps.currencyDigitsRE = null;
/**
* Regular expression matching a "Unicode locale extension sequence", which the
* specification defines as: "any substring of a language tag that starts with
* a separator '-' and the singleton 'u' and includes the maximum sequence of
* following non-singleton subtags and their preceding '-' separators."
*
* Alternatively, this may be defined as: the components of a language tag that
* match the extension production in RFC 5646, where the singleton component is
* "u".
*
* Spec: ECMAScript Internationalization API Specification, 6.2.1.
*/
function getUnicodeLocaleExtensionSequenceRE() {
return internalIntlRegExps.unicodeLocaleExtensionSequenceRE ||
(internalIntlRegExps.unicodeLocaleExtensionSequenceRE =
RegExpCreate("-u(?:-[a-z0-9]{2,8})+"));
}
/**
* Removes Unicode locale extension sequences from the given language tag.
*/
function removeUnicodeExtensions(locale) {
// A wholly-privateuse locale has no extension sequences.
if (callFunction(std_String_startsWith, locale, "x-"))
return locale;
// Otherwise, split on "-x-" marking the start of any privateuse component.
// Replace Unicode locale extension sequences in the left half, and return
// the concatenation.
var pos = callFunction(std_String_indexOf, locale, "-x-");
if (pos < 0)
pos = locale.length;
var left = callFunction(String_substring, locale, 0, pos);
var right = callFunction(String_substring, locale, pos);
var extensions;
var unicodeLocaleExtensionSequenceRE = getUnicodeLocaleExtensionSequenceRE();
while ((extensions = regexp_exec_no_statics(unicodeLocaleExtensionSequenceRE, left)) !== null) {
left = StringReplaceString(left, extensions[0], "");
unicodeLocaleExtensionSequenceRE.lastIndex = 0;
}
var combined = left + right;
assert(IsStructurallyValidLanguageTag(combined), "recombination produced an invalid language tag");
assert(function() {
var uindex = callFunction(std_String_indexOf, combined, "-u-");
if (uindex < 0)
return true;
var xindex = callFunction(std_String_indexOf, combined, "-x-");
return xindex > 0 && xindex < uindex;
}(), "recombination failed to remove all Unicode locale extension sequences");
return combined;
}
/**
* Regular expression defining BCP 47 language tags.
*
* Spec: RFC 5646 section 2.1.
*/
function getLanguageTagRE() {
if (internalIntlRegExps.languageTagRE)
return internalIntlRegExps.languageTagRE;
// RFC 5234 section B.1
// ALPHA = %x41-5A / %x61-7A ; A-Z / a-z
var ALPHA = "[a-zA-Z]";
// DIGIT = %x30-39
// ; 0-9
var DIGIT = "[0-9]";
// RFC 5646 section 2.1
// alphanum = (ALPHA / DIGIT) ; letters and numbers
var alphanum = "(?:" + ALPHA + "|" + DIGIT + ")";
// regular = "art-lojban" ; these tags match the 'langtag'
// / "cel-gaulish" ; production, but their subtags
// / "no-bok" ; are not extended language
// / "no-nyn" ; or variant subtags: their meaning
// / "zh-guoyu" ; is defined by their registration
// / "zh-hakka" ; and all of these are deprecated
// / "zh-min" ; in favor of a more modern
// / "zh-min-nan" ; subtag or sequence of subtags
// / "zh-xiang"
var regular = "(?:art-lojban|cel-gaulish|no-bok|no-nyn|zh-guoyu|zh-hakka|zh-min|zh-min-nan|zh-xiang)";
// irregular = "en-GB-oed" ; irregular tags do not match
// / "i-ami" ; the 'langtag' production and
// / "i-bnn" ; would not otherwise be
// / "i-default" ; considered 'well-formed'
// / "i-enochian" ; These tags are all valid,
// / "i-hak" ; but most are deprecated
// / "i-klingon" ; in favor of more modern
// / "i-lux" ; subtags or subtag
// / "i-mingo" ; combination
// / "i-navajo"
// / "i-pwn"
// / "i-tao"
// / "i-tay"
// / "i-tsu"
// / "sgn-BE-FR"
// / "sgn-BE-NL"
// / "sgn-CH-DE"
var irregular = "(?:en-GB-oed|i-ami|i-bnn|i-default|i-enochian|i-hak|i-klingon|i-lux|i-mingo|i-navajo|i-pwn|i-tao|i-tay|i-tsu|sgn-BE-FR|sgn-BE-NL|sgn-CH-DE)";
// grandfathered = irregular ; non-redundant tags registered
// / regular ; during the RFC 3066 era
var grandfathered = "(?:" + irregular + "|" + regular + ")";
// privateuse = "x" 1*("-" (1*8alphanum))
var privateuse = "(?:x(?:-[a-z0-9]{1,8})+)";
// singleton = DIGIT ; 0 - 9
// / %x41-57 ; A - W
// / %x59-5A ; Y - Z
// / %x61-77 ; a - w
// / %x79-7A ; y - z
var singleton = "(?:" + DIGIT + "|[A-WY-Za-wy-z])";
// extension = singleton 1*("-" (2*8alphanum))
var extension = "(?:" + singleton + "(?:-" + alphanum + "{2,8})+)";
// variant = 5*8alphanum ; registered variants
// / (DIGIT 3alphanum)
var variant = "(?:" + alphanum + "{5,8}|(?:" + DIGIT + alphanum + "{3}))";
// region = 2ALPHA ; ISO 3166-1 code
// / 3DIGIT ; UN M.49 code
var region = "(?:" + ALPHA + "{2}|" + DIGIT + "{3})";
// script = 4ALPHA ; ISO 15924 code
var script = "(?:" + ALPHA + "{4})";
// extlang = 3ALPHA ; selected ISO 639 codes
// *2("-" 3ALPHA) ; permanently reserved
var extlang = "(?:" + ALPHA + "{3}(?:-" + ALPHA + "{3}){0,2})";
// language = 2*3ALPHA ; shortest ISO 639 code
// ["-" extlang] ; sometimes followed by
// ; extended language subtags
// / 4ALPHA ; or reserved for future use
// / 5*8ALPHA ; or registered language subtag
var language = "(?:" + ALPHA + "{2,3}(?:-" + extlang + ")?|" + ALPHA + "{4}|" + ALPHA + "{5,8})";
// langtag = language
// ["-" script]
// ["-" region]
// *("-" variant)
// *("-" extension)
// ["-" privateuse]
var langtag = language + "(?:-" + script + ")?(?:-" + region + ")?(?:-" +
variant + ")*(?:-" + extension + ")*(?:-" + privateuse + ")?";
// Language-Tag = langtag ; normal language tags
// / privateuse ; private use tag
// / grandfathered ; grandfathered tags
var languageTag = "^(?:" + langtag + "|" + privateuse + "|" + grandfathered + ")$";
// Language tags are case insensitive (RFC 5646 section 2.1.1).
return (internalIntlRegExps.languageTagRE = RegExpCreate(languageTag, "i"));
}
function getDuplicateVariantRE() {
if (internalIntlRegExps.duplicateVariantRE)
return internalIntlRegExps.duplicateVariantRE;
// RFC 5234 section B.1
// ALPHA = %x41-5A / %x61-7A ; A-Z / a-z
var ALPHA = "[a-zA-Z]";
// DIGIT = %x30-39
// ; 0-9
var DIGIT = "[0-9]";
// RFC 5646 section 2.1
// alphanum = (ALPHA / DIGIT) ; letters and numbers
var alphanum = "(?:" + ALPHA + "|" + DIGIT + ")";
// variant = 5*8alphanum ; registered variants
// / (DIGIT 3alphanum)
var variant = "(?:" + alphanum + "{5,8}|(?:" + DIGIT + alphanum + "{3}))";
// Match a langtag that contains a duplicate variant.
var duplicateVariant =
// Match everything in a langtag prior to any variants, and maybe some
// of the variants as well (which makes this pattern inefficient but
// not wrong, for our purposes);
"(?:" + alphanum + "{2,8}-)+" +
// a variant, parenthesised so that we can refer back to it later;
"(" + variant + ")-" +
// zero or more subtags at least two characters long (thus stopping
// before extension and privateuse components);
"(?:" + alphanum + "{2,8}-)*" +
// and the same variant again
"\\1" +
// ...but not followed by any characters that would turn it into a
// different subtag.
"(?!" + alphanum + ")";
// Language tags are case insensitive (RFC 5646 section 2.1.1). Using
// character classes covering both upper- and lower-case characters nearly
// addresses this -- but for the possibility of variant repetition with
// differing case, e.g. "en-variant-Variant". Use a case-insensitive
// regular expression to address this. (Note that there's no worry about
// case transformation accepting invalid characters here: users have
// already verified the string is alphanumeric Latin plus "-".)
return (internalIntlRegExps.duplicateVariantRE = RegExpCreate(duplicateVariant, "i"));
}
function getDuplicateSingletonRE() {
if (internalIntlRegExps.duplicateSingletonRE)
return internalIntlRegExps.duplicateSingletonRE;
// RFC 5234 section B.1
// ALPHA = %x41-5A / %x61-7A ; A-Z / a-z
var ALPHA = "[a-zA-Z]";
// DIGIT = %x30-39
// ; 0-9
var DIGIT = "[0-9]";
// RFC 5646 section 2.1
// alphanum = (ALPHA / DIGIT) ; letters and numbers
var alphanum = "(?:" + ALPHA + "|" + DIGIT + ")";
// singleton = DIGIT ; 0 - 9
// / %x41-57 ; A - W
// / %x59-5A ; Y - Z
// / %x61-77 ; a - w
// / %x79-7A ; y - z
var singleton = "(?:" + DIGIT + "|[A-WY-Za-wy-z])";
// Match a langtag that contains a duplicate singleton.
var duplicateSingleton =
// Match a singleton subtag, parenthesised so that we can refer back to
// it later;
"-(" + singleton + ")-" +
// then zero or more subtags;
"(?:" + alphanum + "+-)*" +
// and the same singleton again
"\\1" +
// ...but not followed by any characters that would turn it into a
// different subtag.
"(?!" + alphanum + ")";
// Language tags are case insensitive (RFC 5646 section 2.1.1). Using
// character classes covering both upper- and lower-case characters nearly
// addresses this -- but for the possibility of singleton repetition with
// differing case, e.g. "en-u-foo-U-foo". Use a case-insensitive regular
// expression to address this. (Note that there's no worry about case
// transformation accepting invalid characters here: users have already
// verified the string is alphanumeric Latin plus "-".)
return (internalIntlRegExps.duplicateSingletonRE = RegExpCreate(duplicateSingleton, "i"));
}
/**
* Verifies that the given string is a well-formed BCP 47 language tag
* with no duplicate variant or singleton subtags.
*
* Spec: ECMAScript Internationalization API Specification, 6.2.2.
*/
function IsStructurallyValidLanguageTag(locale) {
assert(typeof locale === "string", "IsStructurallyValidLanguageTag");
var languageTagRE = getLanguageTagRE();
if (!regexp_test_no_statics(languageTagRE, locale))
return false;
// Before checking for duplicate variant or singleton subtags with
// regular expressions, we have to get private use subtag sequences
// out of the picture.
if (callFunction(std_String_startsWith, locale, "x-"))
return true;
var pos = callFunction(std_String_indexOf, locale, "-x-");
if (pos !== -1)
locale = callFunction(String_substring, locale, 0, pos);
// Check for duplicate variant or singleton subtags.
var duplicateVariantRE = getDuplicateVariantRE();
var duplicateSingletonRE = getDuplicateSingletonRE();
return !regexp_test_no_statics(duplicateVariantRE, locale) &&
!regexp_test_no_statics(duplicateSingletonRE, locale);
}
/**
* Canonicalizes the given structurally valid BCP 47 language tag, including
* regularized case of subtags. For example, the language tag
* Zh-NAN-haNS-bu-variant2-Variant1-u-ca-chinese-t-Zh-laTN-x-PRIVATE, where
*
* Zh ; 2*3ALPHA
* -NAN ; ["-" extlang]
* -haNS ; ["-" script]
* -bu ; ["-" region]
* -variant2 ; *("-" variant)
* -Variant1
* -u-ca-chinese ; *("-" extension)
* -t-Zh-laTN
* -x-PRIVATE ; ["-" privateuse]
*
* becomes nan-Hans-mm-variant2-variant1-t-zh-latn-u-ca-chinese-x-private
*
* Spec: ECMAScript Internationalization API Specification, 6.2.3.
* Spec: RFC 5646, section 4.5.
*/
function CanonicalizeLanguageTag(locale) {
assert(IsStructurallyValidLanguageTag(locale), "CanonicalizeLanguageTag");
// The input
// "Zh-NAN-haNS-bu-variant2-Variant1-u-ca-chinese-t-Zh-laTN-x-PRIVATE"
// will be used throughout this method to illustrate how it works.
// Language tags are compared and processed case-insensitively, so
// technically it's not necessary to adjust case. But for easier processing,
// and because the canonical form for most subtags is lower case, we start
// with lower case for all.
// "Zh-NAN-haNS-bu-variant2-Variant1-u-ca-chinese-t-Zh-laTN-x-PRIVATE" ->
// "zh-nan-hans-bu-variant2-variant1-u-ca-chinese-t-zh-latn-x-private"
locale = callFunction(std_String_toLowerCase, locale);
// Handle mappings for complete tags.
if (callFunction(std_Object_hasOwnProperty, langTagMappings, locale))
return langTagMappings[locale];
var subtags = StringSplitString(ToString(locale), "-");
var i = 0;
// Handle the standard part: All subtags before the first singleton or "x".
// "zh-nan-hans-bu-variant2-variant1"
while (i < subtags.length) {
var subtag = subtags[i];
// If we reach the start of an extension sequence or private use part,
// we're done with this loop. We have to check for i > 0 because for
// irregular language tags, such as i-klingon, the single-character
// subtag "i" is not the start of an extension sequence.
// In the example, we break at "u".
if (subtag.length === 1 && (i > 0 || subtag === "x"))
break;
if (i !== 0) {
if (subtag.length === 4) {
// 4-character subtags that are not in initial position are
// script codes; their first character needs to be capitalized.
// "hans" -> "Hans"
subtag = callFunction(std_String_toUpperCase, subtag[0]) +
callFunction(String_substring, subtag, 1);
} else if (subtag.length === 2) {
// 2-character subtags that are not in initial position are
// region codes; they need to be upper case. "bu" -> "BU"
subtag = callFunction(std_String_toUpperCase, subtag);
}
}
if (callFunction(std_Object_hasOwnProperty, langSubtagMappings, subtag)) {
// Replace deprecated subtags with their preferred values.
// "BU" -> "MM"
// This has to come after we capitalize region codes because
// otherwise some language and region codes could be confused.
// For example, "in" is an obsolete language code for Indonesian,
// but "IN" is the country code for India.
// Note that the script generating langSubtagMappings makes sure
// that no regular subtag mapping will replace an extlang code.
subtag = langSubtagMappings[subtag];
} else if (callFunction(std_Object_hasOwnProperty, extlangMappings, subtag)) {
// Replace deprecated extlang subtags with their preferred values,
// and remove the preceding subtag if it's a redundant prefix.
// "zh-nan" -> "nan"
// Note that the script generating extlangMappings makes sure that
// no extlang mapping will replace a normal language code.
subtag = extlangMappings[subtag].preferred;
if (i === 1 && extlangMappings[subtag].prefix === subtags[0]) {
callFunction(std_Array_shift, subtags);
i--;
}
}
subtags[i] = subtag;
i++;
}
var normal = ArrayJoinRange(subtags, "-", 0, i);
// Extension sequences are sorted by their singleton characters.
// "u-ca-chinese-t-zh-latn" -> "t-zh-latn-u-ca-chinese"
var extensions = new List();
while (i < subtags.length && subtags[i] !== "x") {
var extensionStart = i;
i++;
while (i < subtags.length && subtags[i].length > 1)
i++;
var extension = ArrayJoinRange(subtags, "-", extensionStart, i);
callFunction(std_Array_push, extensions, extension);
}
callFunction(std_Array_sort, extensions);
// Private use sequences are left as is. "x-private"
var privateUse = "";
if (i < subtags.length)
privateUse = ArrayJoinRange(subtags, "-", i);
// Put everything back together.
var canonical = normal;
if (extensions.length > 0)
canonical += "-" + callFunction(std_Array_join, extensions, "-");
if (privateUse.length > 0) {
// Be careful of a Language-Tag that is entirely privateuse.
if (canonical.length > 0)
canonical += "-" + privateUse;
else
canonical = privateUse;
}
return canonical;
}
/**
* Joins the array elements in the given range with the supplied separator.
*/
function ArrayJoinRange(array, separator, from, to = array.length) {
assert(typeof separator === "string", "|separator| is a string value");
assert(typeof from === "number", "|from| is a number value");
assert(typeof to === "number", "|to| is a number value");
assert(0 <= from && from <= to && to <= array.length, "|from| and |to| form a valid range");
if (from === to)
return "";
var result = array[from];
for (var i = from + 1; i < to; i++) {
result += separator + array[i];
}
return result;
}
function localeContainsNoUnicodeExtensions(locale) {
// No "-u-", no possible Unicode extension.
if (callFunction(std_String_indexOf, locale, "-u-") === -1)
return true;
// "-u-" within privateuse also isn't one.
if (callFunction(std_String_indexOf, locale, "-u-") > callFunction(std_String_indexOf, locale, "-x-"))
return true;
// An entirely-privateuse tag doesn't contain extensions.
if (callFunction(std_String_startsWith, locale, "x-"))
return true;
// Otherwise, we have a Unicode extension sequence.
return false;
}
// The last-ditch locale is used if none of the available locales satisfies a
// request. "en-GB" is used based on the assumptions that English is the most
// common second language, that both en-GB and en-US are normally available in
// an implementation, and that en-GB is more representative of the English used
// in other locales.
function lastDitchLocale() {
// Per bug 1177929, strings don't clone out of self-hosted code as atoms,
// breaking IonBuilder::constant. Put this in a function for now.
return "en-GB";
}
// Certain old, commonly-used language tags that lack a script, are expected to
// nonetheless imply one. This object maps these old-style tags to modern
// equivalents.
var oldStyleLanguageTagMappings = {
"pa-PK": "pa-Arab-PK",
"zh-CN": "zh-Hans-CN",
"zh-HK": "zh-Hant-HK",
"zh-SG": "zh-Hans-SG",
"zh-TW": "zh-Hant-TW",
};
var localeCandidateCache = {
runtimeDefaultLocale: undefined,
candidateDefaultLocale: undefined,
};
var localeCache = {
runtimeDefaultLocale: undefined,
defaultLocale: undefined,
};
/**
* Compute the candidate default locale: the locale *requested* to be used as
* the default locale. We'll use it if and only if ICU provides support (maybe
* fallback support, e.g. supporting "de-ZA" through "de" support implied by a
* "de-DE" locale).
*/
function DefaultLocaleIgnoringAvailableLocales() {
const runtimeDefaultLocale = RuntimeDefaultLocale();
if (runtimeDefaultLocale === localeCandidateCache.runtimeDefaultLocale)
return localeCandidateCache.candidateDefaultLocale;
// If we didn't get a cache hit, compute the candidate default locale and
// cache it. Fall back on the last-ditch locale when necessary.
var candidate;
if (!IsStructurallyValidLanguageTag(runtimeDefaultLocale)) {
candidate = lastDitchLocale();
} else {
candidate = CanonicalizeLanguageTag(runtimeDefaultLocale);
// The default locale must be in [[availableLocales]], and that list
// must not contain any locales with Unicode extension sequences, so
// remove any present in the candidate.
candidate = removeUnicodeExtensions(candidate);
if (callFunction(std_Object_hasOwnProperty, oldStyleLanguageTagMappings, candidate))
candidate = oldStyleLanguageTagMappings[candidate];
}
// Cache the candidate locale until the runtime default locale changes.
localeCandidateCache.candidateDefaultLocale = candidate;
localeCandidateCache.runtimeDefaultLocale = runtimeDefaultLocale;
assert(IsStructurallyValidLanguageTag(candidate),
"the candidate must be structurally valid");
assert(localeContainsNoUnicodeExtensions(candidate),
"the candidate must not contain a Unicode extension sequence");
return candidate;
}
/**
* Returns the BCP 47 language tag for the host environment's current locale.
*
* Spec: ECMAScript Internationalization API Specification, 6.2.4.
*/
function DefaultLocale() {
const runtimeDefaultLocale = RuntimeDefaultLocale();
if (runtimeDefaultLocale === localeCache.runtimeDefaultLocale)
return localeCache.defaultLocale;
// If we didn't have a cache hit, compute the candidate default locale.
// Then use it as the actual default locale if ICU supports that locale
// (perhaps via fallback). Otherwise use the last-ditch locale.
var candidate = DefaultLocaleIgnoringAvailableLocales();
var locale;
if (BestAvailableLocaleIgnoringDefault(callFunction(collatorInternalProperties.availableLocales,
collatorInternalProperties),
candidate) &&
BestAvailableLocaleIgnoringDefault(callFunction(numberFormatInternalProperties.availableLocales,
numberFormatInternalProperties),
candidate) &&
BestAvailableLocaleIgnoringDefault(callFunction(dateTimeFormatInternalProperties.availableLocales,
dateTimeFormatInternalProperties),
candidate))
{
locale = candidate;
} else {
locale = lastDitchLocale();
}
assert(IsStructurallyValidLanguageTag(locale),
"the computed default locale must be structurally valid");
assert(locale === CanonicalizeLanguageTag(locale),
"the computed default locale must be canonical");
assert(localeContainsNoUnicodeExtensions(locale),
"the computed default locale must not contain a Unicode extension sequence");
localeCache.defaultLocale = locale;
localeCache.runtimeDefaultLocale = runtimeDefaultLocale;
return locale;
}
/**
* Verifies that the given string is a well-formed ISO 4217 currency code.
*
* Spec: ECMAScript Internationalization API Specification, 6.3.1.
*/
function getIsWellFormedCurrencyCodeRE() {
return internalIntlRegExps.isWellFormedCurrencyCodeRE ||
(internalIntlRegExps.isWellFormedCurrencyCodeRE = RegExpCreate("[^A-Z]"));
}
function IsWellFormedCurrencyCode(currency) {
var c = ToString(currency);
var normalized = toASCIIUpperCase(c);
if (normalized.length !== 3)
return false;
return !regexp_test_no_statics(getIsWellFormedCurrencyCodeRE(), normalized);
}
var timeZoneCache = {
icuDefaultTimeZone: undefined,
defaultTimeZone: undefined,
};
/**
* 6.4.2 CanonicalizeTimeZoneName ( timeZone )
*
* Canonicalizes the given IANA time zone name.
*
* ES2017 Intl draft rev 4a23f407336d382ed5e3471200c690c9b020b5f3
*/
function CanonicalizeTimeZoneName(timeZone) {
assert(typeof timeZone === "string", "CanonicalizeTimeZoneName");
// Step 1. (Not applicable, the input is already a valid IANA time zone.)
assert(timeZone !== "Etc/Unknown", "Invalid time zone");
assert(timeZone === intl_IsValidTimeZoneName(timeZone), "Time zone name not normalized");
// Step 2.
var ianaTimeZone = intl_canonicalizeTimeZone(timeZone);
assert(ianaTimeZone !== "Etc/Unknown", "Invalid canonical time zone");
assert(ianaTimeZone === intl_IsValidTimeZoneName(ianaTimeZone), "Unsupported canonical time zone");
// Step 3.
if (ianaTimeZone === "Etc/UTC" || ianaTimeZone === "Etc/GMT") {
// ICU/CLDR canonicalizes Etc/UCT to Etc/GMT, but following IANA and
// ECMA-402 to the letter means Etc/UCT is a separate time zone.
if (timeZone === "Etc/UCT" || timeZone === "UCT")
ianaTimeZone = "Etc/UCT";
else
ianaTimeZone = "UTC";
}
// Step 4.
return ianaTimeZone;
}
/**
* 6.4.3 DefaultTimeZone ()
*
* Returns the IANA time zone name for the host environment's current time zone.
*
* ES2017 Intl draft rev 4a23f407336d382ed5e3471200c690c9b020b5f3
*/
function DefaultTimeZone() {
const icuDefaultTimeZone = intl_defaultTimeZone();
if (timeZoneCache.icuDefaultTimeZone === icuDefaultTimeZone)
return timeZoneCache.defaultTimeZone;
// Verify that the current ICU time zone is a valid ECMA-402 time zone.
var timeZone = intl_IsValidTimeZoneName(icuDefaultTimeZone);
if (timeZone === null) {
// Before defaulting to "UTC", try to represent the default time zone
// using the Etc/GMT + offset format. This format only accepts full
// hour offsets.
const msPerHour = 60 * 60 * 1000;
var offset = intl_defaultTimeZoneOffset();
assert(offset === (offset | 0),
"milliseconds offset shouldn't be able to exceed int32_t range");
var offsetHours = offset / msPerHour, offsetHoursFraction = offset % msPerHour;
if (offsetHoursFraction === 0) {
// Etc/GMT + offset uses POSIX-style signs, i.e. a positive offset
// means a location west of GMT.
timeZone = "Etc/GMT" + (offsetHours < 0 ? "+" : "-") + std_Math_abs(offsetHours);
// Check if the fallback is valid.
timeZone = intl_IsValidTimeZoneName(timeZone);
}
// Fallback to "UTC" if everything else fails.
if (timeZone === null)
timeZone = "UTC";
}
// Canonicalize the ICU time zone, e.g. change Etc/UTC to UTC.
var defaultTimeZone = CanonicalizeTimeZoneName(timeZone);
timeZoneCache.defaultTimeZone = defaultTimeZone;
timeZoneCache.icuDefaultTimeZone = icuDefaultTimeZone;
return defaultTimeZone;
}
/********** Locale and Parameter Negotiation **********/
/**
* Add old-style language tags without script code for locales that in current
* usage would include a script subtag. Also add an entry for the last-ditch
* locale, in case ICU doesn't directly support it (but does support it through
* fallback, e.g. supporting "en-GB" indirectly using "en" support).
*/
function addSpecialMissingLanguageTags(availableLocales) {
// Certain old-style language tags lack a script code, but in current usage
// they *would* include a script code. Map these over to modern forms.
var oldStyleLocales = std_Object_getOwnPropertyNames(oldStyleLanguageTagMappings);
for (var i = 0; i < oldStyleLocales.length; i++) {
var oldStyleLocale = oldStyleLocales[i];
if (availableLocales[oldStyleLanguageTagMappings[oldStyleLocale]])
availableLocales[oldStyleLocale] = true;
}
// Also forcibly provide the last-ditch locale.
var lastDitch = lastDitchLocale();
assert(lastDitch === "en-GB" && availableLocales["en"],
"shouldn't be a need to add every locale implied by the last-" +
"ditch locale, merely just the last-ditch locale");
availableLocales[lastDitch] = true;
}
/**
* Canonicalizes a locale list.
*
* Spec: ECMAScript Internationalization API Specification, 9.2.1.
*/
function CanonicalizeLocaleList(locales) {
if (locales === undefined)
return new List();
var seen = new List();
if (typeof locales === "string")
locales = [locales];
var O = ToObject(locales);
var len = ToLength(O.length);
var k = 0;
while (k < len) {
// Don't call ToString(k) - SpiderMonkey is faster with integers.
var kPresent = HasProperty(O, k);
if (kPresent) {
var kValue = O[k];
if (!(typeof kValue === "string" || IsObject(kValue)))
ThrowTypeError(JSMSG_INVALID_LOCALES_ELEMENT);
var tag = ToString(kValue);
if (!IsStructurallyValidLanguageTag(tag))
ThrowRangeError(JSMSG_INVALID_LANGUAGE_TAG, tag);
tag = CanonicalizeLanguageTag(tag);
if (callFunction(ArrayIndexOf, seen, tag) === -1)
callFunction(std_Array_push, seen, tag);
}
k++;
}
return seen;
}
function BestAvailableLocaleHelper(availableLocales, locale, considerDefaultLocale) {
assert(IsStructurallyValidLanguageTag(locale), "invalid BestAvailableLocale locale structure");
assert(locale === CanonicalizeLanguageTag(locale), "non-canonical BestAvailableLocale locale");
assert(localeContainsNoUnicodeExtensions(locale), "locale must contain no Unicode extensions");
// In the spec, [[availableLocales]] is formally a list of all available
// locales. But in our implementation, it's an *incomplete* list, not
// necessarily including the default locale (and all locales implied by it,
// e.g. "de" implied by "de-CH"), if that locale isn't in every
// [[availableLocales]] list (because that locale is supported through
// fallback, e.g. "de-CH" supported through "de").
//
// If we're considering the default locale, augment the spec loop with
// additional checks to also test whether the current prefix is a prefix of
// the default locale.
var defaultLocale;
if (considerDefaultLocale)
defaultLocale = DefaultLocale();
var candidate = locale;
while (true) {
if (availableLocales[candidate])
return candidate;
if (considerDefaultLocale && candidate.length <= defaultLocale.length) {
if (candidate === defaultLocale)
return candidate;
if (callFunction(std_String_startsWith, defaultLocale, candidate + "-"))
return candidate;
}
var pos = callFunction(std_String_lastIndexOf, candidate, "-");
if (pos === -1)
return undefined;
if (pos >= 2 && candidate[pos - 2] === "-")
pos -= 2;
candidate = callFunction(String_substring, candidate, 0, pos);
}
}
/**
* Compares a BCP 47 language tag against the locales in availableLocales
* and returns the best available match. Uses the fallback
* mechanism of RFC 4647, section 3.4.
*
* Spec: ECMAScript Internationalization API Specification, 9.2.2.
* Spec: RFC 4647, section 3.4.
*/
function BestAvailableLocale(availableLocales, locale) {
return BestAvailableLocaleHelper(availableLocales, locale, true);
}
/**
* Identical to BestAvailableLocale, but does not consider the default locale
* during computation.
*/
function BestAvailableLocaleIgnoringDefault(availableLocales, locale) {
return BestAvailableLocaleHelper(availableLocales, locale, false);
}
var noRelevantExtensionKeys = [];
/**
* Compares a BCP 47 language priority list against the set of locales in
* availableLocales and determines the best available language to meet the
* request. Options specified through Unicode extension subsequences are
* ignored in the lookup, but information about such subsequences is returned
* separately.
*
* This variant is based on the Lookup algorithm of RFC 4647 section 3.4.
*
* Spec: ECMAScript Internationalization API Specification, 9.2.3.
* Spec: RFC 4647, section 3.4.
*/
function LookupMatcher(availableLocales, requestedLocales) {
var i = 0;
var len = requestedLocales.length;
var availableLocale;
var locale, noExtensionsLocale;
while (i < len && availableLocale === undefined) {
locale = requestedLocales[i];
noExtensionsLocale = removeUnicodeExtensions(locale);
availableLocale = BestAvailableLocale(availableLocales, noExtensionsLocale);
i++;
}
var result = new Record();
if (availableLocale !== undefined) {
result.locale = availableLocale;
if (locale !== noExtensionsLocale) {
var unicodeLocaleExtensionSequenceRE = getUnicodeLocaleExtensionSequenceRE();
var extensionMatch = regexp_exec_no_statics(unicodeLocaleExtensionSequenceRE, locale);
var extension = extensionMatch[0];
var extensionIndex = extensionMatch.index;
result.extension = extension;
result.extensionIndex = extensionIndex;
}
} else {
result.locale = DefaultLocale();
}
return result;
}
/**
* Compares a BCP 47 language priority list against the set of locales in
* availableLocales and determines the best available language to meet the
* request. Options specified through Unicode extension subsequences are
* ignored in the lookup, but information about such subsequences is returned
* separately.
*
* Spec: ECMAScript Internationalization API Specification, 9.2.4.
*/
function BestFitMatcher(availableLocales, requestedLocales) {
// this implementation doesn't have anything better
return LookupMatcher(availableLocales, requestedLocales);
}
/**
* Compares a BCP 47 language priority list against availableLocales and
* determines the best available language to meet the request. Options specified
* through Unicode extension subsequences are negotiated separately, taking the
* caller's relevant extensions and locale data as well as client-provided
* options into consideration.
*
* Spec: ECMAScript Internationalization API Specification, 9.2.5.
*/
function ResolveLocale(availableLocales, requestedLocales, options, relevantExtensionKeys, localeData) {
/*jshint laxbreak: true */
// Steps 1-3.
var matcher = options.localeMatcher;
var r = (matcher === "lookup")
? LookupMatcher(availableLocales, requestedLocales)
: BestFitMatcher(availableLocales, requestedLocales);
// Step 4.
var foundLocale = r.locale;
// Step 5.a.
var extension = r.extension;
var extensionIndex, extensionSubtags, extensionSubtagsLength;
// Step 5.
if (extension !== undefined) {
// Step 5.b.
extensionIndex = r.extensionIndex;
// Steps 5.d-e.
extensionSubtags = StringSplitString(ToString(extension), "-");
extensionSubtagsLength = extensionSubtags.length;
}
// Steps 6-7.
var result = new Record();
result.dataLocale = foundLocale;
// Step 8.
var supportedExtension = "-u";
// Steps 9-11.
var i = 0;
var len = relevantExtensionKeys.length;
while (i < len) {
// Steps 11.a-c.
var key = relevantExtensionKeys[i];
// In this implementation, localeData is a function, not an object.
var foundLocaleData = localeData(foundLocale);
var keyLocaleData = foundLocaleData[key];
// Locale data provides default value.
// Step 11.d.
var value = keyLocaleData[0];
// Locale tag may override.
// Step 11.e.
var supportedExtensionAddition = "";
// Step 11.f is implemented by Utilities.js.
var valuePos;
// Step 11.g.
if (extensionSubtags !== undefined) {
// Step 11.g.i.
var keyPos = callFunction(ArrayIndexOf, extensionSubtags, key);
// Step 11.g.ii.
if (keyPos !== -1) {
// Step 11.g.ii.1.
if (keyPos + 1 < extensionSubtagsLength &&
extensionSubtags[keyPos + 1].length > 2)
{
// Step 11.g.ii.1.a.
var requestedValue = extensionSubtags[keyPos + 1];
// Step 11.g.ii.1.b.
valuePos = callFunction(ArrayIndexOf, keyLocaleData, requestedValue);
// Step 11.g.ii.1.c.
if (valuePos !== -1) {
value = requestedValue;
supportedExtensionAddition = "-" + key + "-" + value;
}
} else {
// Step 11.g.ii.2.
// According to the LDML spec, if there's no type value,
// and true is an allowed value, it's used.
// Step 11.g.ii.2.a.
valuePos = callFunction(ArrayIndexOf, keyLocaleData, "true");
// Step 11.g.ii.2.b.
if (valuePos !== -1)
value = "true";
}
}
}
// Options override all.
// Step 11.h.i.
var optionsValue = options[key];
// Step 11.h, 11.h.ii.
if (optionsValue !== undefined &&
callFunction(ArrayIndexOf, keyLocaleData, optionsValue) !== -1)
{
// Step 11.h.ii.1.
if (optionsValue !== value) {
value = optionsValue;
supportedExtensionAddition = "";
}
}
// Steps 11.i-k.
result[key] = value;
supportedExtension += supportedExtensionAddition;
i++;
}
// Step 12.
if (supportedExtension.length > 2) {
var preExtension = callFunction(String_substring, foundLocale, 0, extensionIndex);
var postExtension = callFunction(String_substring, foundLocale, extensionIndex);
foundLocale = preExtension + supportedExtension + postExtension;
}
// Steps 13-14.
result.locale = foundLocale;
return result;
}
/**
* Returns the subset of requestedLocales for which availableLocales has a
* matching (possibly fallback) locale. Locales appear in the same order in the
* returned list as in the input list.
*
* Spec: ECMAScript Internationalization API Specification, 9.2.6.
*/
function LookupSupportedLocales(availableLocales, requestedLocales) {
// Steps 1-2.
var len = requestedLocales.length;
var subset = new List();
// Steps 3-4.
var k = 0;
while (k < len) {
// Steps 4.a-b.
var locale = requestedLocales[k];
var noExtensionsLocale = removeUnicodeExtensions(locale);
// Step 4.c-d.
var availableLocale = BestAvailableLocale(availableLocales, noExtensionsLocale);
if (availableLocale !== undefined)
callFunction(std_Array_push, subset, locale);
// Step 4.e.
k++;
}
// Steps 5-6.
return callFunction(std_Array_slice, subset, 0);
}
/**
* Returns the subset of requestedLocales for which availableLocales has a
* matching (possibly fallback) locale. Locales appear in the same order in the
* returned list as in the input list.
*
* Spec: ECMAScript Internationalization API Specification, 9.2.7.
*/
function BestFitSupportedLocales(availableLocales, requestedLocales) {
// don't have anything better
return LookupSupportedLocales(availableLocales, requestedLocales);
}
/**
* Returns the subset of requestedLocales for which availableLocales has a
* matching (possibly fallback) locale. Locales appear in the same order in the
* returned list as in the input list.
*
* Spec: ECMAScript Internationalization API Specification, 9.2.8.
*/
function SupportedLocales(availableLocales, requestedLocales, options) {
/*jshint laxbreak: true */
// Step 1.
var matcher;
if (options !== undefined) {
// Steps 1.a-b.
options = ToObject(options);
matcher = options.localeMatcher;
// Step 1.c.
if (matcher !== undefined) {
matcher = ToString(matcher);
if (matcher !== "lookup" && matcher !== "best fit")
ThrowRangeError(JSMSG_INVALID_LOCALE_MATCHER, matcher);
}
}
// Steps 2-3.
var subset = (matcher === undefined || matcher === "best fit")
? BestFitSupportedLocales(availableLocales, requestedLocales)
: LookupSupportedLocales(availableLocales, requestedLocales);
// Step 4.
for (var i = 0; i < subset.length; i++) {
_DefineDataProperty(subset, i, subset[i],
ATTR_ENUMERABLE | ATTR_NONCONFIGURABLE | ATTR_NONWRITABLE);
}
_DefineDataProperty(subset, "length", subset.length,
ATTR_NONENUMERABLE | ATTR_NONCONFIGURABLE | ATTR_NONWRITABLE);
// Step 5.
return subset;
}
/**
* Extracts a property value from the provided options object, converts it to
* the required type, checks whether it is one of a list of allowed values,
* and fills in a fallback value if necessary.
*
* Spec: ECMAScript Internationalization API Specification, 9.2.9.
*/
function GetOption(options, property, type, values, fallback) {
// Step 1.
var value = options[property];
// Step 2.
if (value !== undefined) {
// Steps 2.a-c.
if (type === "boolean")
value = ToBoolean(value);
else if (type === "string")
value = ToString(value);
else
assert(false, "GetOption");
// Step 2.d.
if (values !== undefined && callFunction(ArrayIndexOf, values, value) === -1)
ThrowRangeError(JSMSG_INVALID_OPTION_VALUE, property, value);
// Step 2.e.
return value;
}
// Step 3.
return fallback;
}
/**
* Extracts a property value from the provided options object, converts it to a
* Number value, checks whether it is in the allowed range, and fills in a
* fallback value if necessary.
*
* Spec: ECMAScript Internationalization API Specification, 9.2.10.
*/
function GetNumberOption(options, property, minimum, maximum, fallback) {
assert(typeof minimum === "number", "GetNumberOption");
assert(typeof maximum === "number", "GetNumberOption");
assert(fallback === undefined || (fallback >= minimum && fallback <= maximum), "GetNumberOption");
// Step 1.
var value = options[property];
// Step 2.
if (value !== undefined) {
value = ToNumber(value);
if (Number_isNaN(value) || value < minimum || value > maximum)
ThrowRangeError(JSMSG_INVALID_DIGITS_VALUE, value);
return std_Math_floor(value);
}
// Step 3.
return fallback;
}
/********** Property access for Intl objects **********/
/**
* Weak map used to track the initialize-as-Intl status (and, if an object has
* been so initialized, the Intl-specific internal properties) of all objects.
* Presence of an object as a key within this map indicates that the object has
* its [[initializedIntlObject]] internal property set to true. The associated
* value is an object whose structure is documented in |initializeIntlObject|
* below.
*
* Ideally we'd be using private symbols for internal properties, but
* SpiderMonkey doesn't have those yet.
*/
var internalsMap = new WeakMap();
/**
* Set the [[initializedIntlObject]] internal property of |obj| to true.
*/
function initializeIntlObject(obj) {
assert(IsObject(obj), "Non-object passed to initializeIntlObject");
// Intl-initialized objects are weird. They have [[initializedIntlObject]]
// set on them, but they don't *necessarily* have any other properties.
var internals = std_Object_create(null);
// The meaning of an internals object for an object |obj| is as follows.
//
// If the .type is "partial", |obj| has [[initializedIntlObject]] set but
// nothing else. No other property of |internals| can be used. (This
// occurs when InitializeCollator or similar marks an object as
// [[initializedIntlObject]] but fails before marking it as the appropriate
// more-specific type ["Collator", "DateTimeFormat", "NumberFormat"].)
//
// Otherwise, the .type indicates the type of Intl object that |obj| is:
// "Collator", "DateTimeFormat", or "NumberFormat" (likely with more coming
// in future Intl specs). In these cases |obj| *conceptually* also has
// [[initializedCollator]] or similar set, and all the other properties
// implied by that.
//
// If |internals| doesn't have a "partial" .type, two additional properties
// have meaning. The .lazyData property stores information needed to
// compute -- without observable side effects -- the actual internal Intl
// properties of |obj|. If it is non-null, then the actual internal
// properties haven't been computed, and .lazyData must be processed by
// |setInternalProperties| before internal Intl property values are
// available. If it is null, then the .internalProps property contains an
// object whose properties are the internal Intl properties of |obj|.
internals.type = "partial";
internals.lazyData = null;
internals.internalProps = null;
callFunction(std_WeakMap_set, internalsMap, obj, internals);
return internals;
}
/**
* Mark |internals| as having the given type and lazy data.
*/
function setLazyData(internals, type, lazyData)
{
assert(internals.type === "partial", "can't set lazy data for anything but a newborn");
assert(type === "Collator" || type === "DateTimeFormat" ||
type == "NumberFormat" || type === "PluralRules",
"bad type");
assert(IsObject(lazyData), "non-object lazy data");
// Set in reverse order so that the .type change is a barrier.
internals.lazyData = lazyData;
internals.type = type;
}
/**
* Set the internal properties object for an |internals| object previously
* associated with lazy data.
*/
function setInternalProperties(internals, internalProps)
{
assert(internals.type !== "partial", "newborn internals can't have computed internals");
assert(IsObject(internals.lazyData), "lazy data must exist already");
assert(IsObject(internalProps), "internalProps argument should be an object");
// Set in reverse order so that the .lazyData nulling is a barrier.
internals.internalProps = internalProps;
internals.lazyData = null;
}
/**
* Get the existing internal properties out of a non-newborn |internals|, or
* null if none have been computed.
*/
function maybeInternalProperties(internals)
{
assert(IsObject(internals), "non-object passed to maybeInternalProperties");
assert(internals.type !== "partial", "maybeInternalProperties must only be used on completely-initialized internals objects");
var lazyData = internals.lazyData;
if (lazyData)
return null;
assert(IsObject(internals.internalProps), "missing lazy data and computed internals");
return internals.internalProps;
}
/**
* Return whether |obj| has an[[initializedIntlObject]] property set to true.
*/
function isInitializedIntlObject(obj) {
#ifdef DEBUG
var internals = callFunction(std_WeakMap_get, internalsMap, obj);
if (IsObject(internals)) {
assert(callFunction(std_Object_hasOwnProperty, internals, "type"), "missing type");
var type = internals.type;
assert(type === "partial" || type === "Collator" ||
type === "DateTimeFormat" || type === "NumberFormat" || type === "PluralRules",
"unexpected type");
assert(callFunction(std_Object_hasOwnProperty, internals, "lazyData"), "missing lazyData");
assert(callFunction(std_Object_hasOwnProperty, internals, "internalProps"), "missing internalProps");
} else {
assert(internals === undefined, "bad mapping for |obj|");
}
#endif
return callFunction(std_WeakMap_has, internalsMap, obj);
}
/**
* Check that |obj| meets the requirements for "this Collator object", "this
* NumberFormat object", or "this DateTimeFormat object" as used in the method
* with the given name. Throw a TypeError if |obj| doesn't meet these
* requirements. But if it does, return |obj|'s internals object (*not* the
* object holding its internal properties!), associated with it by
* |internalsMap|, with structure specified above.
*
* Spec: ECMAScript Internationalization API Specification, 10.3.
* Spec: ECMAScript Internationalization API Specification, 11.3.
* Spec: ECMAScript Internationalization API Specification, 12.3.
*/
function getIntlObjectInternals(obj, className, methodName) {
assert(typeof className === "string", "bad className for getIntlObjectInternals");
var internals = callFunction(std_WeakMap_get, internalsMap, obj);
assert(internals === undefined || isInitializedIntlObject(obj), "bad mapping in internalsMap");
if (internals === undefined || internals.type !== className)
ThrowTypeError(JSMSG_INTL_OBJECT_NOT_INITED, className, methodName, className);
return internals;
}
/**
* Get the internal properties of known-Intl object |obj|. For use only by
* C++ code that knows what it's doing!
*/
function getInternals(obj)
{
assert(isInitializedIntlObject(obj), "for use only on guaranteed Intl objects");
var internals = callFunction(std_WeakMap_get, internalsMap, obj);
assert(internals.type !== "partial", "must have been successfully initialized");
var lazyData = internals.lazyData;
if (!lazyData)
return internals.internalProps;
var internalProps;
var type = internals.type;
if (type === "Collator")
internalProps = resolveCollatorInternals(lazyData)
else if (type === "DateTimeFormat")
internalProps = resolveDateTimeFormatInternals(lazyData)
else if (type === "PluralRules")
internalProps = resolvePluralRulesInternals(lazyData)
else
internalProps = resolveNumberFormatInternals(lazyData);
setInternalProperties(internals, internalProps);
return internalProps;
}
/********** Intl.Collator **********/
/**
* Mapping from Unicode extension keys for collation to options properties,
* their types and permissible values.
*
* Spec: ECMAScript Internationalization API Specification, 10.1.1.
*/
var collatorKeyMappings = {
kn: {property: "numeric", type: "boolean"},
kf: {property: "caseFirst", type: "string", values: ["upper", "lower", "false"]}
};
/**
* Compute an internal properties object from |lazyCollatorData|.
*/
function resolveCollatorInternals(lazyCollatorData)
{
assert(IsObject(lazyCollatorData), "lazy data not an object?");
var internalProps = std_Object_create(null);
// Step 7.
internalProps.usage = lazyCollatorData.usage;
// Step 8.
var Collator = collatorInternalProperties;
// Step 9.
var collatorIsSorting = lazyCollatorData.usage === "sort";
var localeData = collatorIsSorting
? Collator.sortLocaleData
: Collator.searchLocaleData;
// Compute effective locale.
// Step 14.
var relevantExtensionKeys = Collator.relevantExtensionKeys;
// Step 15.
var r = ResolveLocale(callFunction(Collator.availableLocales, Collator),
lazyCollatorData.requestedLocales,
lazyCollatorData.opt,
relevantExtensionKeys,
localeData);
// Step 16.
internalProps.locale = r.locale;
// Steps 17-19.
var key, property, value, mapping;
var i = 0, len = relevantExtensionKeys.length;
while (i < len) {
// Step 19.a.
key = relevantExtensionKeys[i];
if (key === "co") {
// Step 19.b.
property = "collation";
value = r.co === null ? "default" : r.co;
} else {
// Step 19.c.
mapping = collatorKeyMappings[key];
property = mapping.property;
value = r[key];
if (mapping.type === "boolean")
value = value === "true";
}
// Step 19.d.
internalProps[property] = value;
// Step 19.e.
i++;
}
// Compute remaining collation options.
// Steps 21-22.
var s = lazyCollatorData.rawSensitivity;
if (s === undefined) {
if (collatorIsSorting) {
// Step 21.a.
s = "variant";
} else {
// Step 21.b.
var dataLocale = r.dataLocale;
var dataLocaleData = localeData(dataLocale);
s = dataLocaleData.sensitivity;
}
}
internalProps.sensitivity = s;
// Step 24.
internalProps.ignorePunctuation = lazyCollatorData.ignorePunctuation;
// Step 25.
internalProps.boundFormat = undefined;
// The caller is responsible for associating |internalProps| with the right
// object using |setInternalProperties|.
return internalProps;
}
/**
* Returns an object containing the Collator internal properties of |obj|, or
* throws a TypeError if |obj| isn't Collator-initialized.
*/
function getCollatorInternals(obj, methodName) {
var internals = getIntlObjectInternals(obj, "Collator", methodName);
assert(internals.type === "Collator", "bad type escaped getIntlObjectInternals");
// If internal properties have already been computed, use them.
var internalProps = maybeInternalProperties(internals);
if (internalProps)
return internalProps;
// Otherwise it's time to fully create them.
internalProps = resolveCollatorInternals(internals.lazyData);
setInternalProperties(internals, internalProps);
return internalProps;
}
/**
* Initializes an object as a Collator.
*
* This method is complicated a moderate bit by its implementing initialization
* as a *lazy* concept. Everything that must happen now, does -- but we defer
* all the work we can until the object is actually used as a Collator. This
* later work occurs in |resolveCollatorInternals|; steps not noted here occur
* there.
*
* Spec: ECMAScript Internationalization API Specification, 10.1.1.
*/
function InitializeCollator(collator, locales, options) {
assert(IsObject(collator), "InitializeCollator");
// Step 1.
if (isInitializedIntlObject(collator))
ThrowTypeError(JSMSG_INTL_OBJECT_REINITED);
// Step 2.
var internals = initializeIntlObject(collator);
// Lazy Collator data has the following structure:
//
// {
// requestedLocales: List of locales,
// usage: "sort" / "search",
// opt: // opt object computed in InitializeCollator
// {
// localeMatcher: "lookup" / "best fit",
// kn: true / false / undefined,
// kf: "upper" / "lower" / "false" / undefined
// }
// rawSensitivity: "base" / "accent" / "case" / "variant" / undefined,
// ignorePunctuation: true / false
// }
//
// Note that lazy data is only installed as a final step of initialization,
// so every Collator lazy data object has *all* these properties, never a
// subset of them.
var lazyCollatorData = std_Object_create(null);
// Step 3.
var requestedLocales = CanonicalizeLocaleList(locales);
lazyCollatorData.requestedLocales = requestedLocales;
// Steps 4-5.
//
// If we ever need more speed here at startup, we should try to detect the
// case where |options === undefined| and Object.prototype hasn't been
// mucked with. (|options| is fully consumed in this method, so it's not a
// concern that Object.prototype might be touched between now and when
// |resolveCollatorInternals| is called.) For now, just keep it simple.
if (options === undefined)
options = {};
else
options = ToObject(options);
// Compute options that impact interpretation of locale.
// Step 6.
var u = GetOption(options, "usage", "string", ["sort", "search"], "sort");
lazyCollatorData.usage = u;
// Step 10.
var opt = new Record();
lazyCollatorData.opt = opt;
// Steps 11-12.
var matcher = GetOption(options, "localeMatcher", "string", ["lookup", "best fit"], "best fit");
opt.localeMatcher = matcher;
// Step 13, unrolled.
var numericValue = GetOption(options, "numeric", "boolean", undefined, undefined);
if (numericValue !== undefined)
numericValue = numericValue ? 'true' : 'false';
opt.kn = numericValue;
var caseFirstValue = GetOption(options, "caseFirst", "string", ["upper", "lower", "false"], undefined);
opt.kf = caseFirstValue;
// Compute remaining collation options.
// Step 20.
var s = GetOption(options, "sensitivity", "string",
["base", "accent", "case", "variant"], undefined);
lazyCollatorData.rawSensitivity = s;
// Step 23.
var ip = GetOption(options, "ignorePunctuation", "boolean", undefined, false);
lazyCollatorData.ignorePunctuation = ip;
// Step 26.
//
// We've done everything that must be done now: mark the lazy data as fully
// computed and install it.
setLazyData(internals, "Collator", lazyCollatorData);
}
/**
* Returns the subset of the given locale list for which this locale list has a
* matching (possibly fallback) locale. Locales appear in the same order in the
* returned list as in the input list.
*
* Spec: ECMAScript Internationalization API Specification, 10.2.2.
*/
function Intl_Collator_supportedLocalesOf(locales /*, options*/) {
var options = arguments.length > 1 ? arguments[1] : undefined;
var availableLocales = callFunction(collatorInternalProperties.availableLocales,
collatorInternalProperties);
var requestedLocales = CanonicalizeLocaleList(locales);
return SupportedLocales(availableLocales, requestedLocales, options);
}
/**
* Collator internal properties.
*
* Spec: ECMAScript Internationalization API Specification, 9.1 and 10.2.3.
*/
var collatorInternalProperties = {
sortLocaleData: collatorSortLocaleData,
searchLocaleData: collatorSearchLocaleData,
_availableLocales: null,
availableLocales: function()
{
var locales = this._availableLocales;
if (locales)
return locales;
locales = intl_Collator_availableLocales();
addSpecialMissingLanguageTags(locales);
return (this._availableLocales = locales);
},
relevantExtensionKeys: ["co", "kn"]
};
function collatorSortLocaleData(locale) {
var collations = intl_availableCollations(locale);
callFunction(std_Array_unshift, collations, null);
return {
co: collations,
kn: ["false", "true"]
};
}
function collatorSearchLocaleData(locale) {
return {
co: [null],
kn: ["false", "true"],
// In theory the default sensitivity is locale dependent;
// in reality the CLDR/ICU default strength is always tertiary.
sensitivity: "variant"
};
}
/**
* Function to be bound and returned by Intl.Collator.prototype.format.
*
* Spec: ECMAScript Internationalization API Specification, 12.3.2.
*/
function collatorCompareToBind(x, y) {
// Steps 1.a.i-ii implemented by ECMAScript declaration binding instantiation,
// ES5.1 10.5, step 4.d.ii.
// Step 1.a.iii-v.
var X = ToString(x);
var Y = ToString(y);
return intl_CompareStrings(this, X, Y);
}
/**
* Returns a function bound to this Collator that compares x (converted to a
* String value) and y (converted to a String value),
* and returns a number less than 0 if x < y, 0 if x = y, or a number greater
* than 0 if x > y according to the sort order for the locale and collation
* options of this Collator object.
*
* Spec: ECMAScript Internationalization API Specification, 10.3.2.
*/
function Intl_Collator_compare_get() {
// Check "this Collator object" per introduction of section 10.3.
var internals = getCollatorInternals(this, "compare");
// Step 1.
if (internals.boundCompare === undefined) {
// Step 1.a.
var F = collatorCompareToBind;
// Step 1.b-d.
var bc = callFunction(FunctionBind, F, this);
internals.boundCompare = bc;
}
// Step 2.
return internals.boundCompare;
}
/**
* Returns the resolved options for a Collator object.
*
* Spec: ECMAScript Internationalization API Specification, 10.3.3 and 10.4.
*/
function Intl_Collator_resolvedOptions() {
// Check "this Collator object" per introduction of section 10.3.
var internals = getCollatorInternals(this, "resolvedOptions");
var result = {
locale: internals.locale,
usage: internals.usage,
sensitivity: internals.sensitivity,
ignorePunctuation: internals.ignorePunctuation
};
var relevantExtensionKeys = collatorInternalProperties.relevantExtensionKeys;
for (var i = 0; i < relevantExtensionKeys.length; i++) {
var key = relevantExtensionKeys[i];
var property = (key === "co") ? "collation" : collatorKeyMappings[key].property;
_DefineDataProperty(result, property, internals[property]);
}
return result;
}
/********** Intl.NumberFormat **********/
/**
* NumberFormat internal properties.
*
* Spec: ECMAScript Internationalization API Specification, 9.1 and 11.2.3.
*/
var numberFormatInternalProperties = {
localeData: numberFormatLocaleData,
_availableLocales: null,
availableLocales: function()
{
var locales = this._availableLocales;
if (locales)
return locales;
locales = intl_NumberFormat_availableLocales();
addSpecialMissingLanguageTags(locales);
return (this._availableLocales = locales);
},
relevantExtensionKeys: ["nu"]
};
/**
* Compute an internal properties object from |lazyNumberFormatData|.
*/
function resolveNumberFormatInternals(lazyNumberFormatData) {
assert(IsObject(lazyNumberFormatData), "lazy data not an object?");
var internalProps = std_Object_create(null);
// Step 3.
var requestedLocales = lazyNumberFormatData.requestedLocales;
// Compute options that impact interpretation of locale.
// Step 6.
var opt = lazyNumberFormatData.opt;
var NumberFormat = numberFormatInternalProperties;
// Step 9.
var localeData = NumberFormat.localeData;
// Step 10.
var r = ResolveLocale(callFunction(NumberFormat.availableLocales, NumberFormat),
lazyNumberFormatData.requestedLocales,
lazyNumberFormatData.opt,
NumberFormat.relevantExtensionKeys,
localeData);
// Steps 11-12. (Step 13 is not relevant to our implementation.)
internalProps.locale = r.locale;
internalProps.numberingSystem = r.nu;
// Compute formatting options.
// Step 15.
var s = lazyNumberFormatData.style;
internalProps.style = s;
// Steps 19, 21.
if (s === "currency") {
internalProps.currency = lazyNumberFormatData.currency;
internalProps.currencyDisplay = lazyNumberFormatData.currencyDisplay;
}
internalProps.minimumIntegerDigits = lazyNumberFormatData.minimumIntegerDigits;
internalProps.minimumFractionDigits = lazyNumberFormatData.minimumFractionDigits;
internalProps.maximumFractionDigits = lazyNumberFormatData.maximumFractionDigits;
if ("minimumSignificantDigits" in lazyNumberFormatData) {
// Note: Intl.NumberFormat.prototype.resolvedOptions() exposes the
// actual presence (versus undefined-ness) of these properties.
assert("maximumSignificantDigits" in lazyNumberFormatData, "min/max sig digits mismatch");
internalProps.minimumSignificantDigits = lazyNumberFormatData.minimumSignificantDigits;
internalProps.maximumSignificantDigits = lazyNumberFormatData.maximumSignificantDigits;
}
// Step 27.
internalProps.useGrouping = lazyNumberFormatData.useGrouping;
// Step 34.
internalProps.boundFormat = undefined;
// The caller is responsible for associating |internalProps| with the right
// object using |setInternalProperties|.
return internalProps;
}
/**
* Returns an object containing the NumberFormat internal properties of |obj|,
* or throws a TypeError if |obj| isn't NumberFormat-initialized.
*/
function getNumberFormatInternals(obj, methodName) {
var internals = getIntlObjectInternals(obj, "NumberFormat", methodName);
assert(internals.type === "NumberFormat", "bad type escaped getIntlObjectInternals");
// If internal properties have already been computed, use them.
var internalProps = maybeInternalProperties(internals);
if (internalProps)
return internalProps;
// Otherwise it's time to fully create them.
internalProps = resolveNumberFormatInternals(internals.lazyData);
setInternalProperties(internals, internalProps);
return internalProps;
}
/**
* Applies digit options used for number formatting onto the intl object.
*
* Spec: ECMAScript Internationalization API Specification, 11.1.1.
*/
function SetNumberFormatDigitOptions(lazyData, options, mnfdDefault) {
// We skip Step 1 because we set the properties on a lazyData object.
// Step 2-3.
assert(IsObject(options), "SetNumberFormatDigitOptions");
assert(typeof mnfdDefault === "number", "SetNumberFormatDigitOptions");
// Steps 4-6.
const mnid = GetNumberOption(options, "minimumIntegerDigits", 1, 21, 1);
const mnfd = GetNumberOption(options, "minimumFractionDigits", 0, 20, mnfdDefault);
const mxfd = GetNumberOption(options, "maximumFractionDigits", mnfd, 20);
// Steps 7-8.
let mnsd = options.minimumSignificantDigits;
let mxsd = options.maximumSignificantDigits;
// Steps 9-11.
lazyData.minimumIntegerDigits = mnid;
lazyData.minimumFractionDigits = mnfd;
lazyData.maximumFractionDigits = mxfd;
// Step 12.
if (mnsd !== undefined || mxsd !== undefined) {
mnsd = GetNumberOption(options, "minimumSignificantDigits", 1, 21, 1);
mxsd = GetNumberOption(options, "maximumSignificantDigits", mnsd, 21, 21);
lazyData.minimumSignificantDigits = mnsd;
lazyData.maximumSignificantDigits = mxsd;
}
}
/**
* Initializes an object as a NumberFormat.
*
* This method is complicated a moderate bit by its implementing initialization
* as a *lazy* concept. Everything that must happen now, does -- but we defer
* all the work we can until the object is actually used as a NumberFormat.
* This later work occurs in |resolveNumberFormatInternals|; steps not noted
* here occur there.
*
* Spec: ECMAScript Internationalization API Specification, 11.1.1.
*/
function InitializeNumberFormat(numberFormat, locales, options) {
assert(IsObject(numberFormat), "InitializeNumberFormat");
// Step 1.
if (isInitializedIntlObject(numberFormat))
ThrowTypeError(JSMSG_INTL_OBJECT_REINITED);
// Step 2.
var internals = initializeIntlObject(numberFormat);
// Lazy NumberFormat data has the following structure:
//
// {
// requestedLocales: List of locales,
// style: "decimal" / "percent" / "currency",
//
// // fields present only if style === "currency":
// currency: a well-formed currency code (IsWellFormedCurrencyCode),
// currencyDisplay: "code" / "symbol" / "name",
//
// opt: // opt object computed in InitializeNumberFormat
// {
// localeMatcher: "lookup" / "best fit",
// }
//
// minimumIntegerDigits: integer ∈ [1, 21],
// minimumFractionDigits: integer ∈ [0, 20],
// maximumFractionDigits: integer ∈ [0, 20],
//
// // optional
// minimumSignificantDigits: integer ∈ [1, 21],
// maximumSignificantDigits: integer ∈ [1, 21],
//
// useGrouping: true / false,
// }
//
// Note that lazy data is only installed as a final step of initialization,
// so every NumberFormat lazy data object has *all* these properties, never a
// subset of them.
var lazyNumberFormatData = std_Object_create(null);
// Step 3.
var requestedLocales = CanonicalizeLocaleList(locales);
lazyNumberFormatData.requestedLocales = requestedLocales;
// Steps 4-5.
//
// If we ever need more speed here at startup, we should try to detect the
// case where |options === undefined| and Object.prototype hasn't been
// mucked with. (|options| is fully consumed in this method, so it's not a
// concern that Object.prototype might be touched between now and when
// |resolveNumberFormatInternals| is called.) For now just keep it simple.
if (options === undefined)
options = {};
else
options = ToObject(options);
// Compute options that impact interpretation of locale.
// Step 6.
var opt = new Record();
lazyNumberFormatData.opt = opt;
// Steps 7-8.
var matcher = GetOption(options, "localeMatcher", "string", ["lookup", "best fit"], "best fit");
opt.localeMatcher = matcher;
// Compute formatting options.
// Step 14.
var s = GetOption(options, "style", "string", ["decimal", "percent", "currency"], "decimal");
lazyNumberFormatData.style = s;
// Steps 16-19.
var c = GetOption(options, "currency", "string", undefined, undefined);
if (c !== undefined && !IsWellFormedCurrencyCode(c))
ThrowRangeError(JSMSG_INVALID_CURRENCY_CODE, c);
var cDigits;
if (s === "currency") {
if (c === undefined)
ThrowTypeError(JSMSG_UNDEFINED_CURRENCY);
// Steps 19.a-c.
c = toASCIIUpperCase(c);
lazyNumberFormatData.currency = c;
cDigits = CurrencyDigits(c);
}
// Step 20.
var cd = GetOption(options, "currencyDisplay", "string", ["code", "symbol", "name"], "symbol");
if (s === "currency")
lazyNumberFormatData.currencyDisplay = cd;
// Steps 22-24.
SetNumberFormatDigitOptions(lazyNumberFormatData, options, s === "currency" ? cDigits: 0);
// Step 25.
if (lazyNumberFormatData.maximumFractionDigits === undefined) {
let mxfdDefault = s === "currency"
? cDigits
: s === "percent"
? 0
: 3;
lazyNumberFormatData.maximumFractionDigits =
std_Math_max(lazyNumberFormatData.minimumFractionDigits, mxfdDefault);
}
// Step 26.
var g = GetOption(options, "useGrouping", "boolean", undefined, true);
lazyNumberFormatData.useGrouping = g;
// Steps 35-36.
//
// We've done everything that must be done now: mark the lazy data as fully
// computed and install it.
setLazyData(internals, "NumberFormat", lazyNumberFormatData);
}
/**
* Mapping from currency codes to the number of decimal digits used for them.
* Default is 2 digits.
*
* Spec: ISO 4217 Currency and Funds Code List.
* http://www.currency-iso.org/en/home/tables/table-a1.html
*/
var currencyDigits = {
BHD: 3,
BIF: 0,
BYR: 0,
CLF: 4,
CLP: 0,
DJF: 0,
GNF: 0,
IQD: 3,
ISK: 0,
JOD: 3,
JPY: 0,
KMF: 0,
KRW: 0,
KWD: 3,
LYD: 3,
OMR: 3,
PYG: 0,
RWF: 0,
TND: 3,
UGX: 0,
UYI: 0,
VND: 0,
VUV: 0,
XAF: 0,
XOF: 0,
XPF: 0
};
/**
* Returns the number of decimal digits to be used for the given currency.
*
* Spec: ECMAScript Internationalization API Specification, 11.1.1.
*/
function getCurrencyDigitsRE() {
return internalIntlRegExps.currencyDigitsRE ||
(internalIntlRegExps.currencyDigitsRE = RegExpCreate("^[A-Z]{3}$"));
}
function CurrencyDigits(currency) {
assert(typeof currency === "string", "CurrencyDigits");
assert(regexp_test_no_statics(getCurrencyDigitsRE(), currency), "CurrencyDigits");
if (callFunction(std_Object_hasOwnProperty, currencyDigits, currency))
return currencyDigits[currency];
return 2;
}
/**
* Returns the subset of the given locale list for which this locale list has a
* matching (possibly fallback) locale. Locales appear in the same order in the
* returned list as in the input list.
*
* Spec: ECMAScript Internationalization API Specification, 11.2.2.
*/
function Intl_NumberFormat_supportedLocalesOf(locales /*, options*/) {
var options = arguments.length > 1 ? arguments[1] : undefined;
var availableLocales = callFunction(numberFormatInternalProperties.availableLocales,
numberFormatInternalProperties);
var requestedLocales = CanonicalizeLocaleList(locales);
return SupportedLocales(availableLocales, requestedLocales, options);
}
function getNumberingSystems(locale) {
// ICU doesn't have an API to determine the set of numbering systems
// supported for a locale; it generally pretends that any numbering system
// can be used with any locale. Supporting a decimal numbering system
// (where only the digits are replaced) is easy, so we offer them all here.
// Algorithmic numbering systems are typically tied to one locale, so for
// lack of information we don't offer them. To increase chances that
// other software will process output correctly, we further restrict to
// those decimal numbering systems explicitly listed in table 2 of
// the ECMAScript Internationalization API Specification, 11.3.2, which
// in turn are those with full specifications in version 21 of Unicode
// Technical Standard #35 using digits that were defined in Unicode 5.0,
// the Unicode version supported in Windows Vista.
// The one thing we can find out from ICU is the default numbering system
// for a locale.
var defaultNumberingSystem = intl_numberingSystem(locale);
return [
defaultNumberingSystem,
"arab", "arabext", "bali", "beng", "deva",
"fullwide", "gujr", "guru", "hanidec", "khmr",
"knda", "laoo", "latn", "limb", "mlym",
"mong", "mymr", "orya", "tamldec", "telu",
"thai", "tibt"
];
}
function numberFormatLocaleData(locale) {
return {
nu: getNumberingSystems(locale)
};
}
/**
* Function to be bound and returned by Intl.NumberFormat.prototype.format.
*
* Spec: ECMAScript Internationalization API Specification, 11.3.2.
*/
function numberFormatFormatToBind(value) {
// Steps 1.a.i implemented by ECMAScript declaration binding instantiation,
// ES5.1 10.5, step 4.d.ii.
// Step 1.a.ii-iii.
var x = ToNumber(value);
return intl_FormatNumber(this, x, /* formatToParts = */ false);
}
/**
* Returns a function bound to this NumberFormat that returns a String value
* representing the result of calling ToNumber(value) according to the
* effective locale and the formatting options of this NumberFormat.
*
* Spec: ECMAScript Internationalization API Specification, 11.3.2.
*/
function Intl_NumberFormat_format_get() {
// Check "this NumberFormat object" per introduction of section 11.3.
var internals = getNumberFormatInternals(this, "format");
// Step 1.
if (internals.boundFormat === undefined) {
// Step 1.a.
var F = numberFormatFormatToBind;
// Step 1.b-d.
var bf = callFunction(FunctionBind, F, this);
internals.boundFormat = bf;
}
// Step 2.
return internals.boundFormat;
}
function Intl_NumberFormat_formatToParts(value) {
// Step 1.
var nf = this;
// Steps 2-3.
getNumberFormatInternals(nf, "formatToParts");
// Step 4.
var x = ToNumber(value);
// Step 5.
return intl_FormatNumber(nf, x, /* formatToParts = */ true);
}
/**
* Returns the resolved options for a NumberFormat object.
*
* Spec: ECMAScript Internationalization API Specification, 11.3.3 and 11.4.
*/
function Intl_NumberFormat_resolvedOptions() {
// Check "this NumberFormat object" per introduction of section 11.3.
var internals = getNumberFormatInternals(this, "resolvedOptions");
var result = {
locale: internals.locale,
numberingSystem: internals.numberingSystem,
style: internals.style,
minimumIntegerDigits: internals.minimumIntegerDigits,
minimumFractionDigits: internals.minimumFractionDigits,
maximumFractionDigits: internals.maximumFractionDigits,
useGrouping: internals.useGrouping
};
var optionalProperties = [
"currency",
"currencyDisplay",
"minimumSignificantDigits",
"maximumSignificantDigits"
];
for (var i = 0; i < optionalProperties.length; i++) {
var p = optionalProperties[i];
if (callFunction(std_Object_hasOwnProperty, internals, p))
_DefineDataProperty(result, p, internals[p]);
}
return result;
}
/********** Intl.DateTimeFormat **********/
/**
* Compute an internal properties object from |lazyDateTimeFormatData|.
*/
function resolveDateTimeFormatInternals(lazyDateTimeFormatData) {
assert(IsObject(lazyDateTimeFormatData), "lazy data not an object?");
// Lazy DateTimeFormat data has the following structure:
//
// {
// requestedLocales: List of locales,
//
// localeOpt: // *first* opt computed in InitializeDateTimeFormat
// {
// localeMatcher: "lookup" / "best fit",
//
// hour12: true / false, // optional
// }
//
// timeZone: IANA time zone name,
//
// formatOpt: // *second* opt computed in InitializeDateTimeFormat
// {
// // all the properties/values listed in Table 3
// // (weekday, era, year, month, day, &c.)
// }
//
// formatMatcher: "basic" / "best fit",
// }
//
// Note that lazy data is only installed as a final step of initialization,
// so every DateTimeFormat lazy data object has *all* these properties,
// never a subset of them.
var internalProps = std_Object_create(null);
// Compute effective locale.
// Step 8.
var DateTimeFormat = dateTimeFormatInternalProperties;
// Step 9.
var localeData = DateTimeFormat.localeData;
// Step 10.
var r = ResolveLocale(callFunction(DateTimeFormat.availableLocales, DateTimeFormat),
lazyDateTimeFormatData.requestedLocales,
lazyDateTimeFormatData.localeOpt,
DateTimeFormat.relevantExtensionKeys,
localeData);
// Steps 11-13.
internalProps.locale = r.locale;
internalProps.calendar = r.ca;
internalProps.numberingSystem = r.nu;
// Compute formatting options.
// Step 14.
var dataLocale = r.dataLocale;
// Steps 15-17.
var tz = lazyDateTimeFormatData.timeZone;
if (tz === undefined) {
// Step 16.
tz = DefaultTimeZone();
}
internalProps.timeZone = tz;
// Step 18.
var formatOpt = lazyDateTimeFormatData.formatOpt;
// Steps 27-28, more or less - see comment after this function.
var pattern = toBestICUPattern(dataLocale, formatOpt);
// Step 29.
internalProps.pattern = pattern;
// Step 30.
internalProps.boundFormat = undefined;
// The caller is responsible for associating |internalProps| with the right
// object using |setInternalProperties|.
return internalProps;
}
/**
* Returns an object containing the DateTimeFormat internal properties of |obj|,
* or throws a TypeError if |obj| isn't DateTimeFormat-initialized.
*/
function getDateTimeFormatInternals(obj, methodName) {
var internals = getIntlObjectInternals(obj, "DateTimeFormat", methodName);
assert(internals.type === "DateTimeFormat", "bad type escaped getIntlObjectInternals");
// If internal properties have already been computed, use them.
var internalProps = maybeInternalProperties(internals);
if (internalProps)
return internalProps;
// Otherwise it's time to fully create them.
internalProps = resolveDateTimeFormatInternals(internals.lazyData);
setInternalProperties(internals, internalProps);
return internalProps;
}
/**
* Components of date and time formats and their values.
*
* Spec: ECMAScript Internationalization API Specification, 12.1.1.
*/
var dateTimeComponentValues = {
weekday: ["narrow", "short", "long"],
era: ["narrow", "short", "long"],
year: ["2-digit", "numeric"],
month: ["2-digit", "numeric", "narrow", "short", "long"],
day: ["2-digit", "numeric"],
hour: ["2-digit", "numeric"],
minute: ["2-digit", "numeric"],
second: ["2-digit", "numeric"],
timeZoneName: ["short", "long"]
};
var dateTimeComponents = std_Object_getOwnPropertyNames(dateTimeComponentValues);
/**
* Initializes an object as a DateTimeFormat.
*
* This method is complicated a moderate bit by its implementing initialization
* as a *lazy* concept. Everything that must happen now, does -- but we defer
* all the work we can until the object is actually used as a DateTimeFormat.
* This later work occurs in |resolveDateTimeFormatInternals|; steps not noted
* here occur there.
*
* Spec: ECMAScript Internationalization API Specification, 12.1.1.
*/
function InitializeDateTimeFormat(dateTimeFormat, locales, options) {
assert(IsObject(dateTimeFormat), "InitializeDateTimeFormat");
// Step 1.
if (isInitializedIntlObject(dateTimeFormat))
ThrowTypeError(JSMSG_INTL_OBJECT_REINITED);
// Step 2.
var internals = initializeIntlObject(dateTimeFormat);
// Lazy DateTimeFormat data has the following structure:
//
// {
// requestedLocales: List of locales,
//
// localeOpt: // *first* opt computed in InitializeDateTimeFormat
// {
// localeMatcher: "lookup" / "best fit",
// }
//
// timeZone: IANA time zone name,
//
// formatOpt: // *second* opt computed in InitializeDateTimeFormat
// {
// // all the properties/values listed in Table 3
// // (weekday, era, year, month, day, &c.)
//
// hour12: true / false // optional
// }
//
// formatMatcher: "basic" / "best fit",
// }
//
// Note that lazy data is only installed as a final step of initialization,
// so every DateTimeFormat lazy data object has *all* these properties,
// never a subset of them.
var lazyDateTimeFormatData = std_Object_create(null);
// Step 3.
var requestedLocales = CanonicalizeLocaleList(locales);
lazyDateTimeFormatData.requestedLocales = requestedLocales;
// Step 4.
options = ToDateTimeOptions(options, "any", "date");
// Compute options that impact interpretation of locale.
// Step 5.
var localeOpt = new Record();
lazyDateTimeFormatData.localeOpt = localeOpt;
// Steps 6-7.
var localeMatcher =
GetOption(options, "localeMatcher", "string", ["lookup", "best fit"],
"best fit");
localeOpt.localeMatcher = localeMatcher;
// Steps 15-17.
var tz = options.timeZone;
if (tz !== undefined) {
// Step 15.a.
tz = ToString(tz);
// Step 15.b.
var timeZone = intl_IsValidTimeZoneName(tz);
if (timeZone === null)
ThrowRangeError(JSMSG_INVALID_TIME_ZONE, tz);
// Step 15.c.
tz = CanonicalizeTimeZoneName(timeZone);
}
lazyDateTimeFormatData.timeZone = tz;
// Step 18.
var formatOpt = new Record();
lazyDateTimeFormatData.formatOpt = formatOpt;
// Step 19.
var i, prop;
for (i = 0; i < dateTimeComponents.length; i++) {
prop = dateTimeComponents[i];
var value = GetOption(options, prop, "string", dateTimeComponentValues[prop], undefined);
formatOpt[prop] = value;
}
// Steps 20-21 provided by ICU - see comment after this function.
// Step 22.
//
// For some reason (ICU not exposing enough interface?) we drop the
// requested format matcher on the floor after this. In any case, even if
// doing so is justified, we have to do this work here in case it triggers
// getters or similar. (bug 852837)
var formatMatcher =
GetOption(options, "formatMatcher", "string", ["basic", "best fit"],
"best fit");
// Steps 23-25 provided by ICU, more or less - see comment after this function.
// Step 26.
var hr12 = GetOption(options, "hour12", "boolean", undefined, undefined);
// Pass hr12 on to ICU.
if (hr12 !== undefined)
formatOpt.hour12 = hr12;
// Step 31.
//
// We've done everything that must be done now: mark the lazy data as fully
// computed and install it.
setLazyData(internals, "DateTimeFormat", lazyDateTimeFormatData);
}
// Intl.DateTimeFormat and ICU skeletons and patterns
// ==================================================
//
// Different locales have different ways to display dates using the same
// basic components. For example, en-US might use "Sept. 24, 2012" while
// fr-FR might use "24 Sept. 2012". The intent of Intl.DateTimeFormat is to
// permit production of a format for the locale that best matches the
// set of date-time components and their desired representation as specified
// by the API client.
//
// ICU supports specification of date and time formats in three ways:
//
// 1) A style is just one of the identifiers FULL, LONG, MEDIUM, or SHORT.
// The date-time components included in each style and their representation
// are defined by ICU using CLDR locale data (CLDR is the Unicode
// Consortium's Common Locale Data Repository).
//
// 2) A skeleton is a string specifying which date-time components to include,
// and which representations to use for them. For example, "yyyyMMMMdd"
// specifies a year with at least four digits, a full month name, and a
// two-digit day. It does not specify in which order the components appear,
// how they are separated, the localized strings for textual components
// (such as weekday or month), whether the month is in format or
// stand-alone form¹, or the numbering system used for numeric components.
// All that information is filled in by ICU using CLDR locale data.
// ¹ The format form is the one used in formatted strings that include a
// day; the stand-alone form is used when not including days, e.g., in
// calendar headers. The two forms differ at least in some Slavic languages,
// e.g. Russian: "22 марта 2013 г." vs. "Март 2013".
//
// 3) A pattern is a string specifying which date-time components to include,
// in which order, with which separators, in which grammatical case. For
// example, "EEEE, d MMMM y" specifies the full localized weekday name,
// followed by comma and space, followed by the day, followed by space,
// followed by the full month name in format form, followed by space,
// followed by the full year. It
// still does not specify localized strings for textual components and the
// numbering system - these are determined by ICU using CLDR locale data or
// possibly API parameters.
//
// All actual formatting in ICU is done with patterns; styles and skeletons
// have to be mapped to patterns before processing.
//
// The options of DateTimeFormat most closely correspond to ICU skeletons. This
// implementation therefore, in the toBestICUPattern function, converts
// DateTimeFormat options to ICU skeletons, and then lets ICU map skeletons to
// actual ICU patterns. The pattern may not directly correspond to what the
// skeleton requests, as the mapper (UDateTimePatternGenerator) is constrained
// by the available locale data for the locale. The resulting ICU pattern is
// kept as the DateTimeFormat's [[pattern]] internal property and passed to ICU
// in the format method.
//
// An ICU pattern represents the information of the following DateTimeFormat
// internal properties described in the specification, which therefore don't
// exist separately in the implementation:
// - [[weekday]], [[era]], [[year]], [[month]], [[day]], [[hour]], [[minute]],
// [[second]], [[timeZoneName]]
// - [[hour12]]
// - [[hourNo0]]
// When needed for the resolvedOptions method, the resolveICUPattern function
// maps the instance's ICU pattern back to the specified properties of the
// object returned by resolvedOptions.
//
// ICU date-time skeletons and patterns aren't fully documented in the ICU
// documentation (see http://bugs.icu-project.org/trac/ticket/9627). The best
// documentation at this point is in UTR 35:
// http://unicode.org/reports/tr35/tr35-dates.html#Date_Format_Patterns
/**
* Returns an ICU pattern string for the given locale and representing the
* specified options as closely as possible given available locale data.
*/
function toBestICUPattern(locale, options) {
// Create an ICU skeleton representing the specified options. See
// http://unicode.org/reports/tr35/tr35-dates.html#Date_Field_Symbol_Table
var skeleton = "";
switch (options.weekday) {
case "narrow":
skeleton += "EEEEE";
break;
case "short":
skeleton += "E";
break;
case "long":
skeleton += "EEEE";
}
switch (options.era) {
case "narrow":
skeleton += "GGGGG";
break;
case "short":
skeleton += "G";
break;
case "long":
skeleton += "GGGG";
break;
}
switch (options.year) {
case "2-digit":
skeleton += "yy";
break;
case "numeric":
skeleton += "y";
break;
}
switch (options.month) {
case "2-digit":
skeleton += "MM";
break;
case "numeric":
skeleton += "M";
break;
case "narrow":
skeleton += "MMMMM";
break;
case "short":
skeleton += "MMM";
break;
case "long":
skeleton += "MMMM";
break;
}
switch (options.day) {
case "2-digit":
skeleton += "dd";
break;
case "numeric":
skeleton += "d";
break;
}
var hourSkeletonChar = "j";
if (options.hour12 !== undefined) {
if (options.hour12)
hourSkeletonChar = "h";
else
hourSkeletonChar = "H";
}
switch (options.hour) {
case "2-digit":
skeleton += hourSkeletonChar + hourSkeletonChar;
break;
case "numeric":
skeleton += hourSkeletonChar;
break;
}
switch (options.minute) {
case "2-digit":
skeleton += "mm";
break;
case "numeric":
skeleton += "m";
break;
}
switch (options.second) {
case "2-digit":
skeleton += "ss";
break;
case "numeric":
skeleton += "s";
break;
}
switch (options.timeZoneName) {
case "short":
skeleton += "z";
break;
case "long":
skeleton += "zzzz";
break;
}
// Let ICU convert the ICU skeleton to an ICU pattern for the given locale.
return intl_patternForSkeleton(locale, skeleton);
}
/**
* Returns a new options object that includes the provided options (if any)
* and fills in default components if required components are not defined.
* Required can be "date", "time", or "any".
* Defaults can be "date", "time", or "all".
*
* Spec: ECMAScript Internationalization API Specification, 12.1.1.
*/
function ToDateTimeOptions(options, required, defaults) {
assert(typeof required === "string", "ToDateTimeOptions");
assert(typeof defaults === "string", "ToDateTimeOptions");
// Steps 1-3.
if (options === undefined)
options = null;
else
options = ToObject(options);
options = std_Object_create(options);
// Step 4.
var needDefaults = true;
// Step 5.
if ((required === "date" || required === "any") &&
(options.weekday !== undefined || options.year !== undefined ||
options.month !== undefined || options.day !== undefined))
{
needDefaults = false;
}
// Step 6.
if ((required === "time" || required === "any") &&
(options.hour !== undefined || options.minute !== undefined ||
options.second !== undefined))
{
needDefaults = false;
}
// Step 7.
if (needDefaults && (defaults === "date" || defaults === "all")) {
// The specification says to call [[DefineOwnProperty]] with false for
// the Throw parameter, while Object.defineProperty uses true. For the
// calls here, the difference doesn't matter because we're adding
// properties to a new object.
_DefineDataProperty(options, "year", "numeric");
_DefineDataProperty(options, "month", "numeric");
_DefineDataProperty(options, "day", "numeric");
}
// Step 8.
if (needDefaults && (defaults === "time" || defaults === "all")) {
// See comment for step 7.
_DefineDataProperty(options, "hour", "numeric");
_DefineDataProperty(options, "minute", "numeric");
_DefineDataProperty(options, "second", "numeric");
}
// Step 9.
return options;
}
/**
* Compares the date and time components requested by options with the available
* date and time formats in formats, and selects the best match according
* to a specified basic matching algorithm.
*
* Spec: ECMAScript Internationalization API Specification, 12.1.1.
*/
function BasicFormatMatcher(options, formats) {
// Steps 1-6.
var removalPenalty = 120,
additionPenalty = 20,
longLessPenalty = 8,
longMorePenalty = 6,
shortLessPenalty = 6,
shortMorePenalty = 3;
// Table 3.
var properties = ["weekday", "era", "year", "month", "day",
"hour", "minute", "second", "timeZoneName"];
// Step 11.c.vi.1.
var values = ["2-digit", "numeric", "narrow", "short", "long"];
// Steps 7-8.
var bestScore = -Infinity;
var bestFormat;
// Steps 9-11.
var i = 0;
var len = formats.length;
while (i < len) {
// Steps 11.a-b.
var format = formats[i];
var score = 0;
// Step 11.c.
var formatProp;
for (var j = 0; j < properties.length; j++) {
var property = properties[j];
// Step 11.c.i.
var optionsProp = options[property];
// Step missing from spec.
// https://bugs.ecmascript.org/show_bug.cgi?id=1254
formatProp = undefined;
// Steps 11.c.ii-iii.
if (callFunction(std_Object_hasOwnProperty, format, property))
formatProp = format[property];
if (optionsProp === undefined && formatProp !== undefined) {
// Step 11.c.iv.
score -= additionPenalty;
} else if (optionsProp !== undefined && formatProp === undefined) {
// Step 11.c.v.
score -= removalPenalty;
} else {
// Step 11.c.vi.
var optionsPropIndex = callFunction(ArrayIndexOf, values, optionsProp);
var formatPropIndex = callFunction(ArrayIndexOf, values, formatProp);
var delta = std_Math_max(std_Math_min(formatPropIndex - optionsPropIndex, 2), -2);
if (delta === 2)
score -= longMorePenalty;
else if (delta === 1)
score -= shortMorePenalty;
else if (delta === -1)
score -= shortLessPenalty;
else if (delta === -2)
score -= longLessPenalty;
}
}
// Step 11.d.
if (score > bestScore) {
bestScore = score;
bestFormat = format;
}
// Step 11.e.
i++;
}
// Step 12.
return bestFormat;
}
/**
* Compares the date and time components requested by options with the available
* date and time formats in formats, and selects the best match according
* to an unspecified best-fit matching algorithm.
*
* Spec: ECMAScript Internationalization API Specification, 12.1.1.
*/
function BestFitFormatMatcher(options, formats) {
// this implementation doesn't have anything better
return BasicFormatMatcher(options, formats);
}
/**
* Returns the subset of the given locale list for which this locale list has a
* matching (possibly fallback) locale. Locales appear in the same order in the
* returned list as in the input list.
*
* Spec: ECMAScript Internationalization API Specification, 12.2.2.
*/
function Intl_DateTimeFormat_supportedLocalesOf(locales /*, options*/) {
var options = arguments.length > 1 ? arguments[1] : undefined;
var availableLocales = callFunction(dateTimeFormatInternalProperties.availableLocales,
dateTimeFormatInternalProperties);
var requestedLocales = CanonicalizeLocaleList(locales);
return SupportedLocales(availableLocales, requestedLocales, options);
}
/**
* DateTimeFormat internal properties.
*
* Spec: ECMAScript Internationalization API Specification, 9.1 and 12.2.3.
*/
var dateTimeFormatInternalProperties = {
localeData: dateTimeFormatLocaleData,
_availableLocales: null,
availableLocales: function()
{
var locales = this._availableLocales;
if (locales)
return locales;
locales = intl_DateTimeFormat_availableLocales();
addSpecialMissingLanguageTags(locales);
return (this._availableLocales = locales);
},
relevantExtensionKeys: ["ca", "nu"]
};
function dateTimeFormatLocaleData(locale) {
return {
ca: intl_availableCalendars(locale),
nu: getNumberingSystems(locale)
};
}
/**
* Function to be bound and returned by Intl.DateTimeFormat.prototype.format.
*
* Spec: ECMAScript Internationalization API Specification, 12.3.2.
*/
function dateTimeFormatFormatToBind() {
// Steps 1.a.i-ii
var date = arguments.length > 0 ? arguments[0] : undefined;
var x = (date === undefined) ? std_Date_now() : ToNumber(date);
// Step 1.a.iii.
return intl_FormatDateTime(this, x, false);
}
/**
* Returns a function bound to this DateTimeFormat that returns a String value
* representing the result of calling ToNumber(date) according to the
* effective locale and the formatting options of this DateTimeFormat.
*
* Spec: ECMAScript Internationalization API Specification, 12.3.2.
*/
function Intl_DateTimeFormat_format_get() {
// Check "this DateTimeFormat object" per introduction of section 12.3.
var internals = getDateTimeFormatInternals(this, "format");
// Step 1.
if (internals.boundFormat === undefined) {
// Step 1.a.
var F = dateTimeFormatFormatToBind;
// Step 1.b-d.
var bf = callFunction(FunctionBind, F, this);
internals.boundFormat = bf;
}
// Step 2.
return internals.boundFormat;
}
function Intl_DateTimeFormat_formatToParts() {
// Check "this DateTimeFormat object" per introduction of section 12.3.
getDateTimeFormatInternals(this, "formatToParts");
// Steps 1.a.i-ii
var date = arguments.length > 0 ? arguments[0] : undefined;
var x = (date === undefined) ? std_Date_now() : ToNumber(date);
// Step 1.a.iii.
return intl_FormatDateTime(this, x, true);
}
/**
* Returns the resolved options for a DateTimeFormat object.
*
* Spec: ECMAScript Internationalization API Specification, 12.3.3 and 12.4.
*/
function Intl_DateTimeFormat_resolvedOptions() {
// Check "this DateTimeFormat object" per introduction of section 12.3.
var internals = getDateTimeFormatInternals(this, "resolvedOptions");
var result = {
locale: internals.locale,
calendar: internals.calendar,
numberingSystem: internals.numberingSystem,
timeZone: internals.timeZone
};
resolveICUPattern(internals.pattern, result);
return result;
}
// Table mapping ICU pattern characters back to the corresponding date-time
// components of DateTimeFormat. See
// http://unicode.org/reports/tr35/tr35-dates.html#Date_Field_Symbol_Table
var icuPatternCharToComponent = {
E: "weekday",
G: "era",
y: "year",
M: "month",
L: "month",
d: "day",
h: "hour",
H: "hour",
k: "hour",
K: "hour",
m: "minute",
s: "second",
z: "timeZoneName",
v: "timeZoneName",
V: "timeZoneName"
};
/**
* Maps an ICU pattern string to a corresponding set of date-time components
* and their values, and adds properties for these components to the result
* object, which will be returned by the resolvedOptions method. For the
* interpretation of ICU pattern characters, see
* http://unicode.org/reports/tr35/tr35-dates.html#Date_Field_Symbol_Table
*/
function resolveICUPattern(pattern, result) {
assert(IsObject(result), "resolveICUPattern");
var i = 0;
while (i < pattern.length) {
var c = pattern[i++];
if (c === "'") {
while (i < pattern.length && pattern[i] !== "'")
i++;
i++;
} else {
var count = 1;
while (i < pattern.length && pattern[i] === c) {
i++;
count++;
}
var value;
switch (c) {
// "text" cases
case "G":
case "E":
case "z":
case "v":
case "V":
if (count <= 3)
value = "short";
else if (count === 4)
value = "long";
else
value = "narrow";
break;
// "number" cases
case "y":
case "d":
case "h":
case "H":
case "m":
case "s":
case "k":
case "K":
if (count === 2)
value = "2-digit";
else
value = "numeric";
break;
// "text & number" cases
case "M":
case "L":
if (count === 1)
value = "numeric";
else if (count === 2)
value = "2-digit";
else if (count === 3)
value = "short";
else if (count === 4)
value = "long";
else
value = "narrow";
break;
default:
// skip other pattern characters and literal text
}
if (callFunction(std_Object_hasOwnProperty, icuPatternCharToComponent, c))
_DefineDataProperty(result, icuPatternCharToComponent[c], value);
if (c === "h" || c === "K")
_DefineDataProperty(result, "hour12", true);
else if (c === "H" || c === "k")
_DefineDataProperty(result, "hour12", false);
}
}
}
/********** Intl.PluralRules **********/
/**
* PluralRules internal properties.
*
* Spec: ECMAScript 402 API, PluralRules, 1.3.3.
*/
var pluralRulesInternalProperties = {
_availableLocales: null,
availableLocales: function()
{
var locales = this._availableLocales;
if (locales)
return locales;
locales = intl_PluralRules_availableLocales();
addSpecialMissingLanguageTags(locales);
return (this._availableLocales = locales);
}
};
/**
* Compute an internal properties object from |lazyPluralRulesData|.
*/
function resolvePluralRulesInternals(lazyPluralRulesData) {
assert(IsObject(lazyPluralRulesData), "lazy data not an object?");
var internalProps = std_Object_create(null);
var requestedLocales = lazyPluralRulesData.requestedLocales;
var PluralRules = pluralRulesInternalProperties;
// Step 13.
const r = ResolveLocale(callFunction(PluralRules.availableLocales, PluralRules),
lazyPluralRulesData.requestedLocales,
lazyPluralRulesData.opt,
noRelevantExtensionKeys, undefined);
// Step 14.
internalProps.locale = r.locale;
internalProps.type = lazyPluralRulesData.type;
internalProps.pluralCategories = intl_GetPluralCategories(
internalProps.locale,
internalProps.type);
internalProps.minimumIntegerDigits = lazyPluralRulesData.minimumIntegerDigits;
internalProps.minimumFractionDigits = lazyPluralRulesData.minimumFractionDigits;
internalProps.maximumFractionDigits = lazyPluralRulesData.maximumFractionDigits;
if ("minimumSignificantDigits" in lazyPluralRulesData) {
assert("maximumSignificantDigits" in lazyPluralRulesData, "min/max sig digits mismatch");
internalProps.minimumSignificantDigits = lazyPluralRulesData.minimumSignificantDigits;
internalProps.maximumSignificantDigits = lazyPluralRulesData.maximumSignificantDigits;
}
return internalProps;
}
/**
* Returns an object containing the PluralRules internal properties of |obj|,
* or throws a TypeError if |obj| isn't PluralRules-initialized.
*/
function getPluralRulesInternals(obj, methodName) {
var internals = getIntlObjectInternals(obj, "PluralRules", methodName);
assert(internals.type === "PluralRules", "bad type escaped getIntlObjectInternals");
var internalProps = maybeInternalProperties(internals);
if (internalProps)
return internalProps;
internalProps = resolvePluralRulesInternals(internals.lazyData);
setInternalProperties(internals, internalProps);
return internalProps;
}
/**
* Initializes an object as a PluralRules.
*
* This method is complicated a moderate bit by its implementing initialization
* as a *lazy* concept. Everything that must happen now, does -- but we defer
* all the work we can until the object is actually used as a PluralRules.
* This later work occurs in |resolvePluralRulesInternals|; steps not noted
* here occur there.
*
* Spec: ECMAScript 402 API, PluralRules, 1.1.1.
*/
function InitializePluralRules(pluralRules, locales, options) {
assert(IsObject(pluralRules), "InitializePluralRules");
// Step 1.
if (isInitializedIntlObject(pluralRules))
ThrowTypeError(JSMSG_INTL_OBJECT_REINITED);
let internals = initializeIntlObject(pluralRules);
// Lazy PluralRules data has the following structure:
//
// {
// requestedLocales: List of locales,
// type: "cardinal" / "ordinal",
//
// opt: // opt object computer in InitializePluralRules
// {
// localeMatcher: "lookup" / "best fit",
// }
//
// minimumIntegerDigits: integer ∈ [1, 21],
// minimumFractionDigits: integer ∈ [0, 20],
// maximumFractionDigits: integer ∈ [0, 20],
//
// // optional
// minimumSignificantDigits: integer ∈ [1, 21],
// maximumSignificantDigits: integer ∈ [1, 21],
// }
//
// Note that lazy data is only installed as a final step of initialization,
// so every PluralRules lazy data object has *all* these properties, never a
// subset of them.
const lazyPluralRulesData = std_Object_create(null);
// Step 3.
let requestedLocales = CanonicalizeLocaleList(locales);
lazyPluralRulesData.requestedLocales = requestedLocales;
// Steps 4-5.
if (options === undefined)
options = {};
else
options = ToObject(options);
// Step 6.
const type = GetOption(options, "type", "string", ["cardinal", "ordinal"], "cardinal");
lazyPluralRulesData.type = type;
// Step 8.
let opt = new Record();
lazyPluralRulesData.opt = opt;
// Steps 9-10.
let matcher = GetOption(options, "localeMatcher", "string", ["lookup", "best fit"], "best fit");
opt.localeMatcher = matcher;
// Step 11.
SetNumberFormatDigitOptions(lazyPluralRulesData, options, 0);
// Step 12.
if (lazyPluralRulesData.maximumFractionDigits === undefined) {
lazyPluralRulesData.maximumFractionDigits =
std_Math_max(lazyPluralRulesData.minimumFractionDigits, 3);
}
setLazyData(internals, "PluralRules", lazyPluralRulesData)
}
/**
* Returns the subset of the given locale list for which this locale list has a
* matching (possibly fallback) locale. Locales appear in the same order in the
* returned list as in the input list.
*
* Spec: ECMAScript 402 API, PluralRules, 1.3.2.
*/
function Intl_PluralRules_supportedLocalesOf(locales /*, options*/) {
var options = arguments.length > 1 ? arguments[1] : undefined;
// Step 1.
var availableLocales = callFunction(pluralRulesInternalProperties.availableLocales,
pluralRulesInternalProperties);
// Step 2.
let requestedLocales = CanonicalizeLocaleList(locales);
// Step 3.
return SupportedLocales(availableLocales, requestedLocales, options);
}
/**
* Returns a String value representing the plural category matching
* the number passed as value according to the
* effective locale and the formatting options of this PluralRules.
*
* Spec: ECMAScript 402 API, PluralRules, 1.4.3.
*/
function Intl_PluralRules_select(value) {
// Step 1.
let pluralRules = this;
// Step 2.
let internals = getPluralRulesInternals(pluralRules, "select");
// Steps 3-4.
let n = ToNumber(value);
// Step 5.
return intl_SelectPluralRule(pluralRules, n);
}
/**
* Returns the resolved options for a PluralRules object.
*
* Spec: ECMAScript 402 API, PluralRules, 1.4.4.
*/
function Intl_PluralRules_resolvedOptions() {
var internals = getPluralRulesInternals(this, "resolvedOptions");
var result = {
locale: internals.locale,
type: internals.type,
pluralCategories: callFunction(std_Array_slice, internals.pluralCategories, 0),
minimumIntegerDigits: internals.minimumIntegerDigits,
minimumFractionDigits: internals.minimumFractionDigits,
maximumFractionDigits: internals.maximumFractionDigits,
};
var optionalProperties = [
"minimumSignificantDigits",
"maximumSignificantDigits"
];
for (var i = 0; i < optionalProperties.length; i++) {
var p = optionalProperties[i];
if (callFunction(std_Object_hasOwnProperty, internals, p))
_DefineDataProperty(result, p, internals[p]);
}
return result;
}
function Intl_getCanonicalLocales(locales) {
let codes = CanonicalizeLocaleList(locales);
let result = [];
let len = codes.length;
let k = 0;
while (k < len) {
_DefineDataProperty(result, k, codes[k]);
k++;
}
return result;
}
function Intl_getCalendarInfo(locales) {
const requestedLocales = CanonicalizeLocaleList(locales);
const DateTimeFormat = dateTimeFormatInternalProperties;
const localeData = DateTimeFormat.localeData;
const localeOpt = new Record();
localeOpt.localeMatcher = "best fit";
const r = ResolveLocale(callFunction(DateTimeFormat.availableLocales, DateTimeFormat),
requestedLocales,
localeOpt,
DateTimeFormat.relevantExtensionKeys,
localeData);
const result = intl_GetCalendarInfo(r.locale);
result.calendar = r.ca;
result.locale = r.locale;
return result;
}
/**
* This function is a custom method designed after Intl API, but currently
* not part of the spec or spec proposal.
* We want to use it internally to retrieve translated values from CLDR in
* order to ensure they're aligned with what Intl API returns.
*
* This API may one day be a foundation for an ECMA402 API spec proposal.
*
* The function takes two arguments - locales which is a list of locale strings
* and options which is an object with two optional properties:
*
* keys:
* an Array of string values that are paths to individual terms
*
* style:
* a String with a value "long", "short" or "narrow"
*
* It returns an object with properties:
*
* locale:
* a negotiated locale string
*
* style:
* negotiated style
*
* values:
* A key-value pair list of requested keys and corresponding
* translated values
*
*/
function Intl_getDisplayNames(locales, options) {
// 1. Let requestLocales be ? CanonicalizeLocaleList(locales).
const requestedLocales = CanonicalizeLocaleList(locales);
// 2. If options is undefined, then
if (options === undefined)
// a. Let options be ObjectCreate(%ObjectPrototype%).
options = {};
// 3. Else,
else
// a. Let options be ? ToObject(options).
options = ToObject(options);
const DateTimeFormat = dateTimeFormatInternalProperties;
// 4. Let localeData be %DateTimeFormat%.[[localeData]].
const localeData = DateTimeFormat.localeData;
// 5. Let opt be a new Record.
const localeOpt = new Record();
// 6. Set localeOpt.[[localeMatcher]] to "best fit".
localeOpt.localeMatcher = "best fit";
// 7. Let r be ResolveLocale(%DateTimeFormat%.[[availableLocales]], requestedLocales, localeOpt,
// %DateTimeFormat%.[[relevantExtensionKeys]], localeData).
const r = ResolveLocale(callFunction(DateTimeFormat.availableLocales, DateTimeFormat),
requestedLocales,
localeOpt,
DateTimeFormat.relevantExtensionKeys,
localeData);
// 8. Let style be ? GetOption(options, "style", "string", « "long", "short", "narrow" », "long").
const style = GetOption(options, "style", "string", ["long", "short", "narrow"], "long");
// 9. Let keys be ? Get(options, "keys").
let keys = options.keys;
// 10. If keys is undefined,
if (keys === undefined) {
// a. Let keys be ArrayCreate(0).
keys = [];
} else if (!IsObject(keys)) {
// 11. Else,
// a. If Type(keys) is not Object, throw a TypeError exception.
ThrowTypeError(JSMSG_INVALID_KEYS_TYPE);
}
// 12. Let processedKeys be ArrayCreate(0).
// (This really should be a List, but we use an Array here in order that
// |intl_ComputeDisplayNames| may infallibly access the list's length via
// |ArrayObject::length|.)
let processedKeys = [];
// 13. Let len be ? ToLength(? Get(keys, "length")).
let len = ToLength(keys.length);
// 14. Let i be 0.
// 15. Repeat, while i < len
for (let i = 0; i < len; i++) {
// a. Let processedKey be ? ToString(? Get(keys, i)).
// b. Perform ? CreateDataPropertyOrThrow(processedKeys, i, processedKey).
callFunction(std_Array_push, processedKeys, ToString(keys[i]));
}
// 16. Let names be ? ComputeDisplayNames(r.[[locale]], style, processedKeys).
const names = intl_ComputeDisplayNames(r.locale, style, processedKeys);
// 17. Let values be ObjectCreate(%ObjectPrototype%).
const values = {};
// 18. Set i to 0.
// 19. Repeat, while i < len
for (let i = 0; i < len; i++) {
// a. Let key be ? Get(processedKeys, i).
const key = processedKeys[i];
// b. Let name be ? Get(names, i).
const name = names[i];
// c. Assert: Type(name) is string.
assert(typeof name === "string", "unexpected non-string value");
// d. Assert: the length of name is greater than zero.
assert(name.length > 0, "empty string value");
// e. Perform ? DefinePropertyOrThrow(values, key, name).
_DefineDataProperty(values, key, name);
}
// 20. Let options be ObjectCreate(%ObjectPrototype%).
// 21. Perform ! DefinePropertyOrThrow(result, "locale", r.[[locale]]).
// 22. Perform ! DefinePropertyOrThrow(result, "style", style).
// 23. Perform ! DefinePropertyOrThrow(result, "values", values).
const result = { locale: r.locale, style, values };
// 24. Return result.
return result;
}
|