/*
* Copyright (c) 2021, Tim Flynn <trflynn89@pm.me>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/AllOf.h>
#include <AK/AnyOf.h>
#include <AK/Array.h>
#include <AK/CharacterTypes.h>
#include <AK/Find.h>
#include <AK/Function.h>
#include <AK/QuickSort.h>
#include <AK/TypeCasts.h>
#include <LibJS/Runtime/Array.h>
#include <LibJS/Runtime/GlobalObject.h>
#include <LibJS/Runtime/Intl/AbstractOperations.h>
#include <LibJS/Runtime/Intl/Locale.h>
#include <LibUnicode/Locale.h>
namespace JS::Intl {
// 6.2.2 IsStructurallyValidLanguageTag ( locale ), https://tc39.es/ecma402/#sec-isstructurallyvalidlanguagetag
Optional<Unicode::LocaleID> is_structurally_valid_language_tag(StringView locale)
{
auto contains_duplicate_variant = [](auto& variants) {
if (variants.is_empty())
return false;
quick_sort(variants);
for (size_t i = 0; i < variants.size() - 1; ++i) {
if (variants[i].equals_ignoring_case(variants[i + 1]))
return true;
}
return false;
};
// IsStructurallyValidLanguageTag returns true if all of the following conditions hold, false otherwise:
// locale can be generated from the EBNF grammar for unicode_locale_id in Unicode Technical Standard #35 LDML § 3.2 Unicode Locale Identifier;
auto locale_id = Unicode::parse_unicode_locale_id(locale);
if (!locale_id.has_value())
return {};
// locale does not use any of the backwards compatibility syntax described in Unicode Technical Standard #35 LDML § 3.3 BCP 47 Conformance;
// https://unicode.org/reports/tr35/#BCP_47_Conformance
if (locale.contains('_') || locale_id->language_id.is_root || !locale_id->language_id.language.has_value())
return {};
// the unicode_language_id within locale contains no duplicate unicode_variant_subtag subtags; and
if (contains_duplicate_variant(locale_id->language_id.variants))
return {};
// if locale contains an extensions* component, that component
Vector<char> unique_keys;
for (auto& extension : locale_id->extensions) {
// does not contain any other_extensions components with duplicate [alphanum-[tTuUxX]] subtags,
// contains at most one unicode_locale_extensions component,
// contains at most one transformed_extensions component, and
char key = extension.visit(
[](Unicode::LocaleExtension const&) { return 'u'; },
[](Unicode::TransformedExtension const&) { return 't'; },
[](Unicode::OtherExtension const& ext) { return static_cast<char>(to_ascii_lowercase(ext.key)); });
if (unique_keys.contains_slow(key))
return {};
unique_keys.append(key);
// if a transformed_extensions component that contains a tlang component is present, then
// the tlang component contains no duplicate unicode_variant_subtag subtags.
if (auto* transformed = extension.get_pointer<Unicode::TransformedExtension>()) {
auto& language = transformed->language;
if (language.has_value() && contains_duplicate_variant(language->variants))
return {};
}
}
return locale_id;
}
// 6.2.3 CanonicalizeUnicodeLocaleId ( locale ), https://tc39.es/ecma402/#sec-canonicalizeunicodelocaleid
String canonicalize_unicode_locale_id(Unicode::LocaleID& locale)
{
// Note: This implementation differs from the spec in how Step 3 is implemented. The spec assumes
// the input to this method is a string, and is written such that operations are performed on parts
// of that string. LibUnicode gives us the parsed locale in a structure, so we can mutate that
// structure directly. From a footnote in the spec:
//
// The third step of this algorithm ensures that a Unicode locale extension sequence in the
// returned language tag contains:
// * only the first instance of any attribute duplicated in the input, and
// * only the first keyword for a given key in the input.
for (auto& extension : locale.extensions) {
if (!extension.has<Unicode::LocaleExtension>())
continue;
auto& locale_extension = extension.get<Unicode::LocaleExtension>();
auto attributes = move(locale_extension.attributes);
for (auto& attribute : attributes) {
if (!locale_extension.attributes.contains_slow(attribute))
locale_extension.attributes.append(move(attribute));
}
auto keywords = move(locale_extension.keywords);
for (auto& keyword : keywords) {
if (!any_of(locale_extension.keywords, [&](auto const& k) { return k.key == keyword.key; }))
locale_extension.keywords.append(move(keyword));
}
break;
}
// 1. Let localeId be the string locale after performing the algorithm to transform it to canonical syntax per Unicode Technical Standard #35 LDML § 3.2.1 Canonical Unicode Locale Identifiers.
// 2. Let localeId be the string localeId after performing the algorithm to transform it to canonical form.
auto locale_id = Unicode::canonicalize_unicode_locale_id(locale);
VERIFY(locale_id.has_value());
// 4. Return localeId.
return locale_id.release_value();
}
// 6.3.1 IsWellFormedCurrencyCode ( currency ), https://tc39.es/ecma402/#sec-canonicalcodefordisplaynames
bool is_well_formed_currency_code(StringView currency)
{
// 1. Let normalized be the result of mapping currency to upper case as described in 6.1.
// 2. If the number of elements in normalized is not 3, return false.
if (currency.length() != 3)
return false;
// 3. If normalized contains any character that is not in the range "A" to "Z" (U+0041 to U+005A), return false.
if (!all_of(currency, is_ascii_alpha))
return false;
// 4. Return true.
return true;
}
// 6.5.1 IsWellFormedUnitIdentifier ( unitIdentifier ), https://tc39.es/ecma402/#sec-iswellformedunitidentifier
bool is_well_formed_unit_identifier(StringView unit_identifier)
{
// 6.5.2 IsSanctionedSimpleUnitIdentifier ( unitIdentifier ), https://tc39.es/ecma402/#sec-iswellformedunitidentifier
constexpr auto is_sanctioned_simple_unit_identifier = [](StringView unit_identifier) {
// 1. If unitIdentifier is listed in Table 2 below, return true.
// 2. Else, return false.
static constexpr auto sanctioned_units = AK::Array { "acre"sv, "bit"sv, "byte"sv, "celsius"sv, "centimeter"sv, "day"sv, "degree"sv, "fahrenheit"sv, "fluid-ounce"sv, "foot"sv, "gallon"sv, "gigabit"sv, "gigabyte"sv, "gram"sv, "hectare"sv, "hour"sv, "inch"sv, "kilobit"sv, "kilobyte"sv, "kilogram"sv, "kilometer"sv, "liter"sv, "megabit"sv, "megabyte"sv, "meter"sv, "mile"sv, "mile-scandinavian"sv, "milliliter"sv, "millimeter"sv, "millisecond"sv, "minute"sv, "month"sv, "ounce"sv, "percent"sv, "petabyte"sv, "pound"sv, "second"sv, "stone"sv, "terabit"sv, "terabyte"sv, "week"sv, "yard"sv, "year"sv };
return find(sanctioned_units.begin(), sanctioned_units.end(), unit_identifier) != sanctioned_units.end();
};
// 1. If the result of IsSanctionedSimpleUnitIdentifier(unitIdentifier) is true, then
if (is_sanctioned_simple_unit_identifier(unit_identifier)) {
// a. Return true.
return true;
}
auto indices = unit_identifier.find_all("-per-"sv);
// 2. If the substring "-per-" does not occur exactly once in unitIdentifier, then
if (indices.size() != 1) {
// a. Return false.
return false;
}
// 3. Let numerator be the substring of unitIdentifier from the beginning to just before "-per-".
auto numerator = unit_identifier.substring_view(0, indices[0]);
// 4. If the result of IsSanctionedSimpleUnitIdentifier(numerator) is false, then
if (!is_sanctioned_simple_unit_identifier(numerator)) {
// a. Return false.
return false;
}
// 5. Let denominator be the substring of unitIdentifier from just after "-per-" to the end.
auto denominator = unit_identifier.substring_view(indices[0] + 5);
// 6. If the result of IsSanctionedSimpleUnitIdentifier(denominator) is false, then
if (!is_sanctioned_simple_unit_identifier(denominator)) {
// a. Return false.
return false;
}
// 7. Return true.
return true;
}
// 9.2.1 CanonicalizeLocaleList ( locales ), https://tc39.es/ecma402/#sec-canonicalizelocalelist
ThrowCompletionOr<Vector<String>> canonicalize_locale_list(GlobalObject& global_object, Value locales)
{
auto& vm = global_object.vm();
// 1. If locales is undefined, then
if (locales.is_undefined()) {
// a. Return a new empty List.
return Vector<String> {};
}
// 2. Let seen be a new empty List.
Vector<String> seen;
Object* object = nullptr;
// 3. If Type(locales) is String or Type(locales) is Object and locales has an [[InitializedLocale]] internal slot, then
if (locales.is_string() || (locales.is_object() && is<Locale>(locales.as_object()))) {
// a. Let O be CreateArrayFromList(« locales »).
object = Array::create_from(global_object, { locales });
}
// 4. Else,
else {
// a. Let O be ? ToObject(locales).
object = TRY(locales.to_object(global_object));
}
// 5. Let len be ? ToLength(? Get(O, "length")).
auto length_value = TRY(object->get(vm.names.length));
auto length = TRY(length_value.to_length(global_object));
// 6. Let k be 0.
// 7. Repeat, while k < len,
for (size_t k = 0; k < length; ++k) {
// a. Let Pk be ToString(k).
auto property_key = PropertyKey { k };
// b. Let kPresent be ? HasProperty(O, Pk).
auto key_present = TRY(object->has_property(property_key));
// c. If kPresent is true, then
if (key_present) {
// i. Let kValue be ? Get(O, Pk).
auto key_value = TRY(object->get(property_key));
// ii. If Type(kValue) is not String or Object, throw a TypeError exception.
if (!key_value.is_string() && !key_value.is_object())
return vm.throw_completion<TypeError>(global_object, ErrorType::NotAnObjectOrString, key_value.to_string_without_side_effects());
String tag;
// iii. If Type(kValue) is Object and kValue has an [[InitializedLocale]] internal slot, then
if (key_value.is_object() && is<Locale>(key_value.as_object())) {
// 1. Let tag be kValue.[[Locale]].
tag = static_cast<Locale const&>(key_value.as_object()).locale();
}
// iv. Else,
else {
// 1. Let tag be ? ToString(kValue).
tag = TRY(key_value.to_string(global_object));
}
// v. If IsStructurallyValidLanguageTag(tag) is false, throw a RangeError exception.
auto locale_id = is_structurally_valid_language_tag(tag);
if (!locale_id.has_value())
return vm.throw_completion<RangeError>(global_object, ErrorType::IntlInvalidLanguageTag, tag);
// vi. Let canonicalizedTag be CanonicalizeUnicodeLocaleId(tag).
auto canonicalized_tag = JS::Intl::canonicalize_unicode_locale_id(*locale_id);
// vii. If canonicalizedTag is not an element of seen, append canonicalizedTag as the last element of seen.
if (!seen.contains_slow(canonicalized_tag))
seen.append(move(canonicalized_tag));
}
// d. Increase k by 1.
}
return seen;
}
// 9.2.2 BestAvailableLocale ( availableLocales, locale ), https://tc39.es/ecma402/#sec-bestavailablelocale
Optional<String> best_available_locale(StringView locale)
{
// 1. Let candidate be locale.
StringView candidate = locale;
// 2. Repeat,
while (true) {
// a. If availableLocales contains an element equal to candidate, return candidate.
if (Unicode::is_locale_available(candidate))
return candidate;
// b. Let pos be the character index of the last occurrence of "-" (U+002D) within candidate. If that character does not occur, return undefined.
auto pos = candidate.find_last('-');
if (!pos.has_value())
return {};
// c. If pos ≥ 2 and the character "-" occurs at index pos-2 of candidate, decrease pos by 2.
if ((*pos >= 2) && (candidate[*pos - 2] == '-'))
pos = *pos - 2;
// d. Let candidate be the substring of candidate from position 0, inclusive, to position pos, exclusive.
candidate = candidate.substring_view(0, *pos);
}
}
struct MatcherResult {
String locale;
Vector<Unicode::Extension> extensions {};
};
// 9.2.3 LookupMatcher ( availableLocales, requestedLocales ), https://tc39.es/ecma402/#sec-lookupmatcher
static MatcherResult lookup_matcher(Vector<String> const& requested_locales)
{
// 1. Let result be a new Record.
MatcherResult result {};
// 2. For each element locale of requestedLocales, do
for (auto const& locale : requested_locales) {
auto locale_id = Unicode::parse_unicode_locale_id(locale);
VERIFY(locale_id.has_value());
// a. Let noExtensionsLocale be the String value that is locale with any Unicode locale extension sequences removed.
auto extensions = locale_id->remove_extension_type<Unicode::LocaleExtension>();
auto no_extensions_locale = locale_id->to_string();
// b. Let availableLocale be BestAvailableLocale(availableLocales, noExtensionsLocale).
auto available_locale = best_available_locale(no_extensions_locale);
// c. If availableLocale is not undefined, then
if (available_locale.has_value()) {
// i. Set result.[[locale]] to availableLocale.
result.locale = available_locale.release_value();
// ii. If locale and noExtensionsLocale are not the same String value, then
if (locale != no_extensions_locale) {
// 1. Let extension be the String value consisting of the substring of the Unicode locale extension sequence within locale.
// 2. Set result.[[extension]] to extension.
result.extensions.extend(move(extensions));
}
// iii. Return result.
return result;
}
}
// 3. Let defLocale be DefaultLocale().
// 4. Set result.[[locale]] to defLocale.
result.locale = Unicode::default_locale();
// 5. Return result.
return result;
}
// 9.2.4 BestFitMatcher ( availableLocales, requestedLocales ), https://tc39.es/ecma402/#sec-bestfitmatcher
static MatcherResult best_fit_matcher(Vector<String> const& requested_locales)
{
// The algorithm is implementation dependent, but should produce results that a typical user of the requested locales would
// perceive as at least as good as those produced by the LookupMatcher abstract operation.
return lookup_matcher(requested_locales);
}
// 9.2.6 InsertUnicodeExtensionAndCanonicalize ( locale, extension ), https://tc39.es/ecma402/#sec-insert-unicode-extension-and-canonicalize
String insert_unicode_extension_and_canonicalize(Unicode::LocaleID locale, Unicode::LocaleExtension extension)
{
// Note: This implementation differs from the spec in how the extension is inserted. The spec assumes
// the input to this method is a string, and is written such that operations are performed on parts
// of that string. LibUnicode gives us the parsed locale in a structure, so we can mutate that
// structure directly.
locale.extensions.append(move(extension));
return JS::Intl::canonicalize_unicode_locale_id(locale);
}
template<typename T>
static auto& find_key_in_value(T& value, StringView key)
{
if (key == "nu"sv)
return value.nu;
// If you hit this point, you must add any missing keys from [[RelevantExtensionKeys]] to LocaleOptions and LocaleResult.
VERIFY_NOT_REACHED();
}
// 9.2.7 ResolveLocale ( availableLocales, requestedLocales, options, relevantExtensionKeys, localeData ), https://tc39.es/ecma402/#sec-resolvelocale
LocaleResult resolve_locale(Vector<String> const& requested_locales, LocaleOptions const& options, Vector<StringView> const& relevant_extension_keys)
{
// 1. Let matcher be options.[[localeMatcher]].
auto const& matcher = options.locale_matcher;
MatcherResult matcher_result;
// 2. If matcher is "lookup", then
if (matcher.is_string() && (matcher.as_string().string() == "lookup"sv)) {
// a. Let r be LookupMatcher(availableLocales, requestedLocales).
matcher_result = lookup_matcher(requested_locales);
}
// 3. Else,
else {
// a. Let r be BestFitMatcher(availableLocales, requestedLocales).
matcher_result = best_fit_matcher(requested_locales);
}
// 4. Let foundLocale be r.[[locale]].
auto found_locale = move(matcher_result.locale);
// 5. Let result be a new Record.
LocaleResult result {};
// 6. Set result.[[dataLocale]] to foundLocale.
result.data_locale = found_locale;
// 7. If r has an [[extension]] field, then
Vector<Unicode::Keyword> keywords;
for (auto& extension : matcher_result.extensions) {
if (!extension.has<Unicode::LocaleExtension>())
continue;
// a. Let components be ! UnicodeExtensionComponents(r.[[extension]]).
auto& components = extension.get<Unicode::LocaleExtension>();
// b. Let keywords be components.[[Keywords]].
keywords = move(components.keywords);
break;
}
// 8. Let supportedExtension be "-u".
Unicode::LocaleExtension supported_extension {};
// 9. For each element key of relevantExtensionKeys, do
for (auto const& key : relevant_extension_keys) {
// a. Let foundLocaleData be localeData.[[<foundLocale>]].
// b. Assert: Type(foundLocaleData) is Record.
// c. Let keyLocaleData be foundLocaleData.[[<key>]].
// d. Assert: Type(keyLocaleData) is List.
auto key_locale_data = Unicode::get_locale_key_mapping(found_locale, key);
// e. Let value be keyLocaleData[0].
// f. Assert: Type(value) is either String or Null.
Optional<String> value;
if (!key_locale_data.is_empty())
value = key_locale_data[0];
// g. Let supportedExtensionAddition be "".
Optional<Unicode::Keyword> supported_extension_addition {};
// h. If r has an [[extension]] field, then
for (auto& entry : keywords) {
// i. If keywords contains an element whose [[Key]] is the same as key, then
if (entry.key != key)
continue;
// 1. Let entry be the element of keywords whose [[Key]] is the same as key.
// 2. Let requestedValue be entry.[[Value]].
auto requested_value = entry.value;
// 3. If requestedValue is not the empty String, then
if (!requested_value.is_empty()) {
// a. If keyLocaleData contains requestedValue, then
if (key_locale_data.contains_slow(requested_value)) {
// i. Let value be requestedValue.
value = move(requested_value);
// ii. Let supportedExtensionAddition be the string-concatenation of "-", key, "-", and value.
supported_extension_addition = Unicode::Keyword { key, move(entry.value) };
}
}
// 4. Else if keyLocaleData contains "true", then
else if (key_locale_data.contains_slow("true"sv)) {
// a. Let value be "true".
value = "true"sv;
// b. Let supportedExtensionAddition be the string-concatenation of "-" and key.
supported_extension_addition = Unicode::Keyword { key, {} };
}
break;
}
// i. If options has a field [[<key>]], then
// i. Let optionsValue be options.[[<key>]].
// ii. Assert: Type(optionsValue) is either String, Undefined, or Null.
auto options_value = find_key_in_value(options, key);
// iii. If Type(optionsValue) is String, then
if (options_value.has_value()) {
// 1. Let optionsValue be the string optionsValue after performing the algorithm steps to transform Unicode extension values to canonical syntax per Unicode Technical Standard #35 LDML § 3.2.1 Canonical Unicode Locale Identifiers, treating key as ukey and optionsValue as uvalue productions.
// 2. Let optionsValue be the string optionsValue after performing the algorithm steps to replace Unicode extension values with their canonical form per Unicode Technical Standard #35 LDML § 3.2.1 Canonical Unicode Locale Identifiers, treating key as ukey and optionsValue as uvalue productions.
Unicode::canonicalize_unicode_extension_values(key, *options_value, true);
// 3. If optionsValue is the empty String, then
if (options_value->is_empty()) {
// a. Let optionsValue be "true".
options_value = "true"sv;
}
}
// iv. If keyLocaleData contains optionsValue, then
if (options_value.has_value() && key_locale_data.contains_slow(*options_value)) {
// 1. If SameValue(optionsValue, value) is false, then
if (options_value != value) {
// a. Let value be optionsValue.
value = move(options_value);
// b. Let supportedExtensionAddition be "".
supported_extension_addition.clear();
}
}
// j. Set result.[[<key>]] to value.
find_key_in_value(result, key) = move(value);
// k. Append supportedExtensionAddition to supportedExtension.
if (supported_extension_addition.has_value())
supported_extension.keywords.append(supported_extension_addition.release_value());
}
// 10. If the number of elements in supportedExtension is greater than 2, then
if (!supported_extension.keywords.is_empty()) {
auto locale_id = Unicode::parse_unicode_locale_id(found_locale);
VERIFY(locale_id.has_value());
// a. Let foundLocale be InsertUnicodeExtensionAndCanonicalize(foundLocale, supportedExtension).
found_locale = insert_unicode_extension_and_canonicalize(locale_id.release_value(), move(supported_extension));
}
// 11. Set result.[[locale]] to foundLocale.
result.locale = move(found_locale);
// 12. Return result.
return result;
}
// 9.2.8 LookupSupportedLocales ( availableLocales, requestedLocales ), https://tc39.es/ecma402/#sec-lookupsupportedlocales
Vector<String> lookup_supported_locales(Vector<String> const& requested_locales)
{
// 1. Let subset be a new empty List.
Vector<String> subset;
// 2. For each element locale of requestedLocales, do
for (auto const& locale : requested_locales) {
auto locale_id = Unicode::parse_unicode_locale_id(locale);
VERIFY(locale_id.has_value());
// a. Let noExtensionsLocale be the String value that is locale with any Unicode locale extension sequences removed.
locale_id->remove_extension_type<Unicode::LocaleExtension>();
auto no_extensions_locale = locale_id->to_string();
// b. Let availableLocale be BestAvailableLocale(availableLocales, noExtensionsLocale).
auto available_locale = best_available_locale(no_extensions_locale);
// c. If availableLocale is not undefined, append locale to the end of subset.
if (available_locale.has_value())
subset.append(locale);
}
// 3. Return subset.
return subset;
}
// 9.2.9 BestFitSupportedLocales ( availableLocales, requestedLocales ), https://tc39.es/ecma402/#sec-bestfitsupportedlocales
Vector<String> best_fit_supported_locales(Vector<String> const& requested_locales)
{
// The BestFitSupportedLocales abstract operation returns the subset of the provided BCP 47
// language priority list requestedLocales for which availableLocales has a matching locale
// when using the Best Fit Matcher algorithm. Locales appear in the same order in the returned
// list as in requestedLocales. The steps taken are implementation dependent.
// :yakbrain:
return lookup_supported_locales(requested_locales);
}
// 9.2.10 SupportedLocales ( availableLocales, requestedLocales, options ), https://tc39.es/ecma402/#sec-supportedlocales
ThrowCompletionOr<Array*> supported_locales(GlobalObject& global_object, Vector<String> const& requested_locales, Value options)
{
auto& vm = global_object.vm();
// 1. Set options to ? CoerceOptionsToObject(options).
auto* options_object = TRY(coerce_options_to_object(global_object, options));
// 2. Let matcher be ? GetOption(options, "localeMatcher", "string", « "lookup", "best fit" », "best fit").
auto matcher = TRY(get_option(global_object, *options_object, vm.names.localeMatcher, Value::Type::String, { "lookup"sv, "best fit"sv }, "best fit"sv));
Vector<String> supported_locales;
// 3. If matcher is "best fit", then
if (matcher.as_string().string() == "best fit"sv) {
// a. Let supportedLocales be BestFitSupportedLocales(availableLocales, requestedLocales).
supported_locales = best_fit_supported_locales(requested_locales);
}
// 4. Else,
else {
// a. Let supportedLocales be LookupSupportedLocales(availableLocales, requestedLocales).
supported_locales = lookup_supported_locales(requested_locales);
}
// 5. Return CreateArrayFromList(supportedLocales).
return Array::create_from<String>(global_object, supported_locales, [&vm](auto& locale) { return js_string(vm, locale); });
}
// 9.2.12 CoerceOptionsToObject ( options ), https://tc39.es/ecma402/#sec-coerceoptionstoobject
ThrowCompletionOr<Object*> coerce_options_to_object(GlobalObject& global_object, Value options)
{
// 1. If options is undefined, then
if (options.is_undefined()) {
// a. Return ! OrdinaryObjectCreate(null).
return Object::create(global_object, nullptr);
}
// 2. Return ? ToObject(options).
return TRY(options.to_object(global_object));
}
// 9.2.13 GetOption ( options, property, type, values, fallback ), https://tc39.es/ecma402/#sec-getoption
ThrowCompletionOr<Value> get_option(GlobalObject& global_object, Object const& options, PropertyKey const& property, Value::Type type, Vector<StringView> const& values, Fallback fallback)
{
auto& vm = global_object.vm();
// 1. Assert: Type(options) is Object.
// 2. Let value be ? Get(options, property).
auto value = TRY(options.get(property));
// 3. If value is undefined, return fallback.
if (value.is_undefined()) {
return fallback.visit(
[](Empty) { return js_undefined(); },
[](bool f) { return Value(f); },
[&vm](StringView f) { return Value(js_string(vm, f)); });
}
// 4. Assert: type is "boolean" or "string".
VERIFY((type == Value::Type::Boolean) || (type == Value::Type::String));
// 5. If type is "boolean", then
if (type == Value::Type::Boolean) {
// a. Let value be ! ToBoolean(value).
value = Value(value.to_boolean());
}
// 6. If type is "string", then
else {
// a. Let value be ? ToString(value).
value = TRY(value.to_primitive_string(global_object));
}
// 7. If values is not undefined and values does not contain an element equal to value, throw a RangeError exception.
if (!values.is_empty()) {
// Note: Every location in the spec that invokes GetOption with type=boolean also has values=undefined.
VERIFY(value.is_string());
if (!values.contains_slow(value.as_string().string()))
return vm.throw_completion<RangeError>(global_object, ErrorType::OptionIsNotValidValue, value.to_string_without_side_effects(), property.as_string());
}
// 8. Return value.
return value;
}
// 9.2.14 DefaultNumberOption ( value, minimum, maximum, fallback ), https://tc39.es/ecma402/#sec-defaultnumberoption
ThrowCompletionOr<Optional<int>> default_number_option(GlobalObject& global_object, Value value, int minimum, int maximum, Optional<int> fallback)
{
auto& vm = global_object.vm();
// 1. If value is undefined, return fallback.
if (value.is_undefined())
return fallback;
// 2. Let value be ? ToNumber(value).
value = TRY(value.to_number(global_object));
// 3. If value is NaN or less than minimum or greater than maximum, throw a RangeError exception.
if (value.is_nan() || (value.as_double() < minimum) || (value.as_double() > maximum))
return vm.throw_completion<RangeError>(global_object, ErrorType::IntlNumberIsNaNOrOutOfRange, value, minimum, maximum);
// 4. Return floor(value).
return floor(value.as_double());
}
// 9.2.15 GetNumberOption ( options, property, minimum, maximum, fallback ), https://tc39.es/ecma402/#sec-getnumberoption
ThrowCompletionOr<Optional<int>> get_number_option(GlobalObject& global_object, Object const& options, PropertyKey const& property, int minimum, int maximum, Optional<int> fallback)
{
// 1. Assert: Type(options) is Object.
// 2. Let value be ? Get(options, property).
auto value = TRY(options.get(property));
// 3. Return ? DefaultNumberOption(value, minimum, maximum, fallback).
return default_number_option(global_object, value, minimum, maximum, move(fallback));
}
// 9.2.16 PartitionPattern ( pattern ), https://tc39.es/ecma402/#sec-partitionpattern
Vector<PatternPartition> partition_pattern(StringView pattern)
{
// 1. Let result be a new empty List.
Vector<PatternPartition> result;
// 2. Let beginIndex be ! StringIndexOf(pattern, "{", 0).
auto begin_index = pattern.find('{', 0);
// 3. Let endIndex be 0.
size_t end_index = 0;
// 4. Let nextIndex be 0.
size_t next_index = 0;
// 5. Let length be the number of code units in pattern.
// 6. Repeat, while beginIndex is an integer index into pattern,
while (begin_index.has_value()) {
// a. Set endIndex to ! StringIndexOf(pattern, "}", beginIndex).
end_index = pattern.find('}', *begin_index).value();
// b. Assert: endIndex is greater than beginIndex.
VERIFY(end_index > *begin_index);
// c. If beginIndex is greater than nextIndex, then
if (*begin_index > next_index) {
// i. Let literal be a substring of pattern from position nextIndex, inclusive, to position beginIndex, exclusive.
auto literal = pattern.substring_view(next_index, *begin_index - next_index);
// ii. Append a new Record { [[Type]]: "literal", [[Value]]: literal } as the last element of the list result.
result.append({ "literal"sv, literal });
}
// d. Let p be the substring of pattern from position beginIndex, exclusive, to position endIndex, exclusive.
auto partition = pattern.substring_view(*begin_index + 1, end_index - *begin_index - 1);
// e. Append a new Record { [[Type]]: p, [[Value]]: undefined } as the last element of the list result.
result.append({ partition, {} });
// f. Set nextIndex to endIndex + 1.
next_index = end_index + 1;
// g. Set beginIndex to ! StringIndexOf(pattern, "{", nextIndex).
begin_index = pattern.find('{', next_index);
}
// 7. If nextIndex is less than length, then
if (next_index < pattern.length()) {
// a. Let literal be the substring of pattern from position nextIndex, inclusive, to position length, exclusive.
auto literal = pattern.substring_view(next_index);
// b. Append a new Record { [[Type]]: "literal", [[Value]]: literal } as the last element of the list result.
result.append({ "literal"sv, literal });
}
// 8. Return result.
return result;
}
}