/* * Copyright (c) 2021-2023, Tim Flynn * * SPDX-License-Identifier: BSD-2-Clause */ #include "../LibUnicode/GeneratorUtil.h" // FIXME: Move this somewhere common. #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include struct CalendarPattern : public Locale::CalendarPattern { bool contains_only_date_fields() const { return !day_period.has_value() && !hour.has_value() && !minute.has_value() && !second.has_value() && !fractional_second_digits.has_value() && !time_zone_name.has_value(); } bool contains_only_time_fields() const { return !weekday.has_value() && !era.has_value() && !year.has_value() && !month.has_value() && !day.has_value(); } unsigned hash() const { auto hash = pair_int_hash(pattern_index, pattern12_index); hash = pair_int_hash(hash, skeleton_index); auto hash_field = [&](auto const& field) { if (field.has_value()) hash = pair_int_hash(hash, static_cast(*field)); else hash = pair_int_hash(hash, -1); }; hash_field(era); hash_field(year); hash_field(month); hash_field(weekday); hash_field(day); hash_field(day_period); hash_field(hour); hash_field(minute); hash_field(second); hash_field(fractional_second_digits); hash_field(time_zone_name); return hash; } bool operator==(CalendarPattern const& other) const { return (skeleton_index == other.skeleton_index) && (pattern_index == other.pattern_index) && (pattern12_index == other.pattern12_index) && (era == other.era) && (year == other.year) && (month == other.month) && (weekday == other.weekday) && (day == other.day) && (day_period == other.day_period) && (hour == other.hour) && (minute == other.minute) && (second == other.second) && (fractional_second_digits == other.fractional_second_digits) && (time_zone_name == other.time_zone_name); } size_t skeleton_index { 0 }; size_t pattern_index { 0 }; size_t pattern12_index { 0 }; }; template<> struct AK::Formatter : Formatter { ErrorOr format(FormatBuilder& builder, CalendarPattern const& pattern) { auto field_to_i8 = [](auto const& field) -> i8 { if (!field.has_value()) return -1; return static_cast(*field); }; return Formatter::format(builder, "{{ {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {} }}"sv, pattern.skeleton_index, pattern.pattern_index, pattern.pattern12_index, field_to_i8(pattern.era), field_to_i8(pattern.year), field_to_i8(pattern.month), field_to_i8(pattern.weekday), field_to_i8(pattern.day), field_to_i8(pattern.day_period), field_to_i8(pattern.hour), field_to_i8(pattern.minute), field_to_i8(pattern.second), field_to_i8(pattern.fractional_second_digits), field_to_i8(pattern.time_zone_name)); } }; template<> struct AK::Traits : public DefaultTraits { static unsigned hash(CalendarPattern const& c) { return c.hash(); } }; struct CalendarRangePattern : public CalendarPattern { unsigned hash() const { auto hash = CalendarPattern::hash(); if (field.has_value()) hash = pair_int_hash(hash, static_cast(*field)); hash = pair_int_hash(hash, start_range); hash = pair_int_hash(hash, separator); hash = pair_int_hash(hash, end_range); return hash; } bool operator==(CalendarRangePattern const& other) const { if (!CalendarPattern::operator==(other)) return false; return (field == other.field) && (start_range == other.start_range) && (separator == other.separator) && (end_range == other.end_range); } Optional field {}; size_t start_range { 0 }; size_t separator { 0 }; size_t end_range { 0 }; }; template<> struct AK::Formatter : Formatter { ErrorOr format(FormatBuilder& builder, CalendarRangePattern const& pattern) { auto field_to_i8 = [](auto const& field) -> i8 { if (!field.has_value()) return -1; return static_cast(*field); }; return Formatter::format(builder, "{{ {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {} }}"sv, pattern.skeleton_index, field_to_i8(pattern.field), pattern.start_range, pattern.separator, pattern.end_range, field_to_i8(pattern.era), field_to_i8(pattern.year), field_to_i8(pattern.month), field_to_i8(pattern.weekday), field_to_i8(pattern.day), field_to_i8(pattern.day_period), field_to_i8(pattern.hour), field_to_i8(pattern.minute), field_to_i8(pattern.second), field_to_i8(pattern.fractional_second_digits), field_to_i8(pattern.time_zone_name)); } }; template<> struct AK::Traits : public DefaultTraits { static unsigned hash(CalendarRangePattern const& c) { return c.hash(); } }; struct CalendarFormat { unsigned hash() const { auto hash = pair_int_hash(full_format, long_format); hash = pair_int_hash(hash, medium_format); hash = pair_int_hash(hash, short_format); return hash; } bool operator==(CalendarFormat const& other) const { return (full_format == other.full_format) && (long_format == other.long_format) && (medium_format == other.medium_format) && (short_format == other.short_format); } size_t full_format { 0 }; size_t long_format { 0 }; size_t medium_format { 0 }; size_t short_format { 0 }; }; template<> struct AK::Formatter : Formatter { ErrorOr format(FormatBuilder& builder, CalendarFormat const& pattern) { return Formatter::format(builder, "{{ {}, {}, {}, {} }}"sv, pattern.full_format, pattern.long_format, pattern.medium_format, pattern.short_format); } }; template<> struct AK::Traits : public DefaultTraits { static unsigned hash(CalendarFormat const& c) { return c.hash(); } }; using SymbolList = Vector; struct CalendarSymbols { unsigned hash() const { auto hash = pair_int_hash(narrow_symbols, short_symbols); hash = pair_int_hash(hash, long_symbols); return hash; } bool operator==(CalendarSymbols const& other) const { return (narrow_symbols == other.narrow_symbols) && (short_symbols == other.short_symbols) && (long_symbols == other.long_symbols); } size_t narrow_symbols { 0 }; size_t short_symbols { 0 }; size_t long_symbols { 0 }; }; template<> struct AK::Formatter : Formatter { ErrorOr format(FormatBuilder& builder, CalendarSymbols const& symbols) { return Formatter::format(builder, "{{ {}, {}, {} }}"sv, symbols.narrow_symbols, symbols.short_symbols, symbols.long_symbols); } }; template<> struct AK::Traits : public DefaultTraits { static unsigned hash(CalendarSymbols const& c) { return c.hash(); } }; using CalendarPatternList = Vector; using CalendarRangePatternList = Vector; using CalendarSymbolsList = Vector; struct Calendar { unsigned hash() const { auto hash = int_hash(date_formats); hash = pair_int_hash(hash, time_formats); hash = pair_int_hash(hash, date_time_formats); hash = pair_int_hash(hash, available_formats); hash = pair_int_hash(hash, default_range_format); hash = pair_int_hash(hash, range_formats); hash = pair_int_hash(hash, range12_formats); hash = pair_int_hash(hash, symbols); return hash; } bool operator==(Calendar const& other) const { return (date_formats == other.date_formats) && (time_formats == other.time_formats) && (date_time_formats == other.date_time_formats) && (available_formats == other.available_formats) && (default_range_format == other.default_range_format) && (range_formats == other.range_formats) && (range12_formats == other.range12_formats) && (symbols == other.symbols); } size_t date_formats { 0 }; size_t time_formats { 0 }; size_t date_time_formats { 0 }; size_t available_formats { 0 }; size_t default_range_format { 0 }; size_t range_formats { 0 }; size_t range12_formats { 0 }; size_t symbols { 0 }; }; template<> struct AK::Formatter : Formatter { ErrorOr format(FormatBuilder& builder, Calendar const& calendar) { return Formatter::format(builder, "{{ {}, {}, {}, {}, {}, {}, {}, {} }}"sv, calendar.date_formats, calendar.time_formats, calendar.date_time_formats, calendar.available_formats, calendar.default_range_format, calendar.range_formats, calendar.range12_formats, calendar.symbols); } }; template<> struct AK::Traits : public DefaultTraits { static unsigned hash(Calendar const& c) { return c.hash(); } }; struct TimeZoneNames { unsigned hash() const { auto hash = pair_int_hash(short_standard_name, long_standard_name); hash = pair_int_hash(hash, short_daylight_name); hash = pair_int_hash(hash, long_daylight_name); hash = pair_int_hash(hash, short_generic_name); hash = pair_int_hash(hash, long_generic_name); return hash; } bool operator==(TimeZoneNames const& other) const { return (short_standard_name == other.short_standard_name) && (long_standard_name == other.long_standard_name) && (short_daylight_name == other.short_daylight_name) && (long_daylight_name == other.long_daylight_name) && (short_generic_name == other.short_generic_name) && (long_generic_name == other.long_generic_name); } size_t short_standard_name { 0 }; size_t long_standard_name { 0 }; size_t short_daylight_name { 0 }; size_t long_daylight_name { 0 }; size_t short_generic_name { 0 }; size_t long_generic_name { 0 }; }; template<> struct AK::Formatter : Formatter { ErrorOr format(FormatBuilder& builder, TimeZoneNames const& time_zone) { return Formatter::format(builder, "{{ {}, {}, {}, {}, {}, {} }}"sv, time_zone.short_standard_name, time_zone.long_standard_name, time_zone.short_daylight_name, time_zone.long_daylight_name, time_zone.short_generic_name, time_zone.long_generic_name); } }; template<> struct AK::Traits : public DefaultTraits { static unsigned hash(TimeZoneNames const& t) { return t.hash(); } }; struct TimeZoneFormat { unsigned hash() const { auto hash = int_hash(symbol_ahead_sign); hash = pair_int_hash(hash, symbol_ahead_separator); hash = pair_int_hash(hash, symbol_behind_sign); hash = pair_int_hash(hash, symbol_behind_separator); hash = pair_int_hash(hash, gmt_format); hash = pair_int_hash(hash, gmt_zero_format); return hash; } bool operator==(TimeZoneFormat const& other) const { return (symbol_ahead_sign == other.symbol_ahead_sign) && (symbol_ahead_separator == other.symbol_ahead_separator) && (symbol_behind_sign == other.symbol_behind_sign) && (symbol_behind_separator == other.symbol_behind_separator) && (gmt_format == other.gmt_format) && (gmt_zero_format == other.gmt_zero_format); } size_t symbol_ahead_sign { 0 }; size_t symbol_ahead_separator { 0 }; size_t symbol_behind_sign { 0 }; size_t symbol_behind_separator { 0 }; size_t gmt_format { 0 }; size_t gmt_zero_format { 0 }; }; template<> struct AK::Formatter : Formatter { ErrorOr format(FormatBuilder& builder, TimeZoneFormat const& time_zone_format) { return Formatter::format(builder, "{{ {}, {}, {}, {}, {}, {} }}"sv, time_zone_format.symbol_ahead_sign, time_zone_format.symbol_ahead_separator, time_zone_format.symbol_behind_sign, time_zone_format.symbol_behind_separator, time_zone_format.gmt_format, time_zone_format.gmt_zero_format); } }; template<> struct AK::Traits : public DefaultTraits { static unsigned hash(TimeZoneFormat const& t) { return t.hash(); } }; struct DayPeriod { unsigned hash() const { auto hash = int_hash(static_cast(day_period)); hash = pair_int_hash(hash, begin); hash = pair_int_hash(hash, end); return hash; } bool operator==(DayPeriod const& other) const { return (day_period == other.day_period) && (begin == other.begin) && (end == other.end); } Locale::DayPeriod day_period {}; u8 begin { 0 }; u8 end { 0 }; }; template<> struct AK::Formatter : Formatter { ErrorOr format(FormatBuilder& builder, DayPeriod const& day_period) { return Formatter::format(builder, "{{ {}, {}, {} }}"sv, static_cast(day_period.day_period), day_period.begin, day_period.end); } }; template<> struct AK::Traits : public DefaultTraits { static unsigned hash(DayPeriod const& d) { return d.hash(); } }; using TimeZoneNamesList = Vector; using DayPeriodList = Vector; using HourCycleList = Vector; template<> struct AK::Formatter : Formatter { ErrorOr format(FormatBuilder& builder, Locale::HourCycle hour_cycle) { return builder.put_u64(to_underlying(hour_cycle)); } }; struct LocaleData { HashMap calendars; size_t time_zones { 0 }; size_t time_zone_formats { 0 }; size_t day_periods { 0 }; }; struct CLDR { UniqueStringStorage unique_strings; UniqueStorage unique_patterns; UniqueStorage unique_pattern_lists; UniqueStorage unique_range_patterns; UniqueStorage unique_range_pattern_lists; UniqueStorage unique_formats; UniqueStorage unique_symbol_lists; UniqueStorage unique_calendar_symbols; UniqueStorage unique_calendar_symbols_lists; UniqueStorage unique_calendars; UniqueStorage unique_time_zones; UniqueStorage unique_time_zone_lists; UniqueStorage unique_time_zone_formats; UniqueStorage unique_day_periods; UniqueStorage unique_day_period_lists; UniqueStorage unique_hour_cycle_lists; HashMap locales; HashMap hour_cycles; Vector hour_cycle_regions; HashMap minimum_days; Vector minimum_days_regions; HashMap first_day; Vector first_day_regions; HashMap weekend_start; Vector weekend_start_regions; HashMap weekend_end; Vector weekend_end_regions; HashMap> meta_zones; Vector time_zones { "UTC"sv }; Vector calendars; }; static Optional day_period_from_string(StringView day_period) { if (day_period == "am"sv) return Locale::DayPeriod::AM; if (day_period == "pm"sv) return Locale::DayPeriod::PM; if (day_period == "noon"sv) return Locale::DayPeriod::Noon; if (day_period == "morning1"sv) return Locale::DayPeriod::Morning1; if (day_period == "morning2"sv) return Locale::DayPeriod::Morning2; if (day_period == "afternoon1"sv) return Locale::DayPeriod::Afternoon1; if (day_period == "afternoon2"sv) return Locale::DayPeriod::Afternoon2; if (day_period == "evening1"sv) return Locale::DayPeriod::Evening1; if (day_period == "evening2"sv) return Locale::DayPeriod::Evening2; if (day_period == "night1"sv) return Locale::DayPeriod::Night1; if (day_period == "night2"sv) return Locale::DayPeriod::Night2; return {}; } static ErrorOr parse_hour_cycles(ByteString core_path, CLDR& cldr) { // https://unicode.org/reports/tr35/tr35-dates.html#Time_Data LexicalPath time_data_path(move(core_path)); time_data_path = time_data_path.append("supplemental"sv); time_data_path = time_data_path.append("timeData.json"sv); auto time_data = TRY(read_json_file(time_data_path.string())); auto const& supplemental_object = time_data.as_object().get_object("supplemental"sv).value(); auto const& time_data_object = supplemental_object.get_object("timeData"sv).value(); auto parse_hour_cycle = [](StringView hour_cycle) -> Optional { if (hour_cycle.is_one_of("h"sv, "hb"sv, "hB"sv)) return Locale::HourCycle::H12; if (hour_cycle.is_one_of("H"sv, "Hb"sv, "HB"sv)) return Locale::HourCycle::H23; if (hour_cycle == "K"sv) return Locale::HourCycle::H11; if (hour_cycle == "k"sv) return Locale::HourCycle::H24; return {}; }; time_data_object.for_each_member([&](auto const& key, JsonValue const& value) { auto allowed_hour_cycles_string = value.as_object().get_byte_string("_allowed"sv).value(); auto allowed_hour_cycles = allowed_hour_cycles_string.split_view(' '); Vector hour_cycles; for (auto allowed_hour_cycle : allowed_hour_cycles) { if (auto hour_cycle = parse_hour_cycle(allowed_hour_cycle); hour_cycle.has_value()) hour_cycles.append(*hour_cycle); } auto hour_cycles_index = cldr.unique_hour_cycle_lists.ensure(move(hour_cycles)); cldr.hour_cycles.set(key, hour_cycles_index); if (!cldr.hour_cycle_regions.contains_slow(key)) cldr.hour_cycle_regions.append(key); }); return {}; } static ErrorOr parse_week_data(ByteString core_path, CLDR& cldr) { // https://unicode.org/reports/tr35/tr35-dates.html#Week_Data LexicalPath week_data_path(move(core_path)); week_data_path = week_data_path.append("supplemental"sv); week_data_path = week_data_path.append("weekData.json"sv); auto week_data = TRY(read_json_file(week_data_path.string())); auto const& supplemental_object = week_data.as_object().get_object("supplemental"sv).value(); auto const& week_data_object = supplemental_object.get_object("weekData"sv).value(); auto parse_weekday = [](StringView day) -> Locale::Weekday { if (day == "sun"sv) return Locale::Weekday::Sunday; if (day == "mon"sv) return Locale::Weekday::Monday; if (day == "tue"sv) return Locale::Weekday::Tuesday; if (day == "wed"sv) return Locale::Weekday::Wednesday; if (day == "thu"sv) return Locale::Weekday::Thursday; if (day == "fri"sv) return Locale::Weekday::Friday; if (day == "sat"sv) return Locale::Weekday::Saturday; VERIFY_NOT_REACHED(); }; auto parse_regional_weekdays = [&](auto const& region, auto const& weekday, auto& weekdays_map, auto& weekday_regions) { if (region.ends_with("alt-variant"sv)) return; weekdays_map.set(region, parse_weekday(weekday)); if (!weekday_regions.contains_slow(region)) weekday_regions.append(region); }; auto const& minimum_days_object = week_data_object.get_object("minDays"sv).value(); auto const& first_day_object = week_data_object.get_object("firstDay"sv).value(); auto const& weekend_start_object = week_data_object.get_object("weekendStart"sv).value(); auto const& weekend_end_object = week_data_object.get_object("weekendEnd"sv).value(); minimum_days_object.for_each_member([&](auto const& region, auto const& value) { auto minimum_days = value.as_string().template to_number(); cldr.minimum_days.set(region, *minimum_days); if (!cldr.minimum_days_regions.contains_slow(region)) cldr.minimum_days_regions.append(region); }); first_day_object.for_each_member([&](auto const& region, auto const& value) { parse_regional_weekdays(region, value.as_string(), cldr.first_day, cldr.first_day_regions); }); weekend_start_object.for_each_member([&](auto const& region, auto const& value) { parse_regional_weekdays(region, value.as_string(), cldr.weekend_start, cldr.weekend_start_regions); }); weekend_end_object.for_each_member([&](auto const& region, auto const& value) { parse_regional_weekdays(region, value.as_string(), cldr.weekend_end, cldr.weekend_end_regions); }); return {}; } static ErrorOr parse_meta_zones(ByteString core_path, CLDR& cldr) { // https://unicode.org/reports/tr35/tr35-dates.html#Metazones LexicalPath meta_zone_path(move(core_path)); meta_zone_path = meta_zone_path.append("supplemental"sv); meta_zone_path = meta_zone_path.append("metaZones.json"sv); auto meta_zone = TRY(read_json_file(meta_zone_path.string())); auto const& supplemental_object = meta_zone.as_object().get_object("supplemental"sv).value(); auto const& meta_zone_object = supplemental_object.get_object("metaZones"sv).value(); auto const& meta_zone_array = meta_zone_object.get_array("metazones"sv).value(); meta_zone_array.for_each([&](JsonValue const& value) { auto const& mapping = value.as_object().get_object("mapZone"sv).value(); auto const& meta_zone = mapping.get_byte_string("_other"sv).value(); auto const& golden_zone = mapping.get_byte_string("_type"sv).value(); if (auto time_zone = TimeZone::time_zone_from_string(golden_zone); time_zone.has_value()) { auto& golden_zones = cldr.meta_zones.ensure(meta_zone); golden_zones.append(*time_zone); } }); // UTC does not appear in metaZones.json. Define it for convenience so other parsers don't need to check for its existence. if (auto time_zone = TimeZone::time_zone_from_string("UTC"sv); time_zone.has_value()) cldr.meta_zones.set("UTC"sv, { *time_zone }); return {}; } static constexpr auto is_char(char ch) { return [ch](auto c) { return c == ch; }; } // For patterns that are 12-hour aware, we need to generate two patterns: one with the day period // (e.g. {ampm}) in the pattern, and one without the day period. We need to take care to remove // extra spaces around the day period. Some example expected removals: // // "{hour}:{minute} {ampm}" becomes "{hour}:{minute}" (remove the space before {ampm}) // "{ampm} {hour}" becomes "{hour}" (remove the space after {ampm}) // "{hour}:{minute} {ampm} {timeZoneName}" becomes "{hour}:{minute} {timeZoneName}" (remove one of the spaces around {ampm}) static ErrorOr remove_period_from_pattern(String pattern) { auto is_surrounding_space = [&](auto code_point_iterator) { if (code_point_iterator.done()) return false; constexpr auto spaces = Array { static_cast(0x0020), 0x00a0, 0x2009, 0x202f }; return spaces.span().contains_slow(*code_point_iterator); }; auto is_opening = [&](auto code_point_iterator) { if (code_point_iterator.done()) return false; return *code_point_iterator == '{'; }; auto is_closing = [&](auto code_point_iterator) { if (code_point_iterator.done()) return false; return *code_point_iterator == '}'; }; for (auto remove : AK::Array { "({ampm})"sv, "{ampm}"sv, "({dayPeriod})"sv, "{dayPeriod}"sv }) { auto index = pattern.find_byte_offset(remove); if (!index.has_value()) continue; Utf8View utf8_pattern { pattern }; Utf8CodePointIterator before_removal; Utf8CodePointIterator after_removal; for (auto it = utf8_pattern.begin(); utf8_pattern.byte_offset_of(it) < *index; ++it) before_removal = it; if (auto it = utf8_pattern.iterator_at_byte_offset(*index + remove.length()); it != utf8_pattern.end()) after_removal = it; auto pattern_view = pattern.bytes_as_string_view(); if (is_surrounding_space(before_removal) && !is_opening(after_removal)) { pattern = TRY(String::formatted("{}{}", pattern_view.substring_view(0, *index - before_removal.underlying_code_point_length_in_bytes()), pattern_view.substring_view(*index + remove.length()))); } else if (is_surrounding_space(after_removal) && !is_closing(before_removal)) { pattern = TRY(String::formatted("{}{}", pattern_view.substring_view(0, *index), pattern_view.substring_view(*index + remove.length() + after_removal.underlying_code_point_length_in_bytes()))); } else { pattern = TRY(String::formatted("{}{}", pattern_view.substring_view(0, *index), pattern_view.substring_view(*index + remove.length()))); } } return pattern; } static ErrorOr> parse_date_time_pattern_raw(ByteString pattern, ByteString skeleton, CLDR& cldr) { // https://unicode.org/reports/tr35/tr35-dates.html#Date_Field_Symbol_Table using Locale::CalendarPatternStyle; CalendarPattern format {}; if (!skeleton.is_empty()) format.skeleton_index = cldr.unique_strings.ensure(move(skeleton)); GenericLexer lexer { pattern }; StringBuilder builder; bool hour12 { false }; while (!lexer.is_eof()) { // Literal strings enclosed by quotes are to be appended to the pattern as-is without further // processing (this just avoids conflicts with the patterns below). if (lexer.next_is(is_quote)) { builder.append(lexer.consume_quoted_string()); continue; } auto starting_char = lexer.peek(); auto segment = lexer.consume_while([&](char ch) { return ch == starting_char; }); // Era if (all_of(segment, is_char('G'))) { builder.append("{era}"sv); if (segment.length() <= 3) format.era = CalendarPatternStyle::Short; else if (segment.length() == 4) format.era = CalendarPatternStyle::Long; else format.era = CalendarPatternStyle::Narrow; } // Year else if (all_of(segment, is_any_of("yYuUr"sv))) { builder.append("{year}"sv); if (segment.length() == 2) format.year = CalendarPatternStyle::TwoDigit; else format.year = CalendarPatternStyle::Numeric; } // Quarter else if (all_of(segment, is_any_of("qQ"sv))) { // Intl.DateTimeFormat does not support quarter formatting, so drop these patterns. return OptionalNone {}; } // Month else if (all_of(segment, is_any_of("ML"sv))) { builder.append("{month}"sv); if (segment.length() == 1) format.month = CalendarPatternStyle::Numeric; else if (segment.length() == 2) format.month = CalendarPatternStyle::TwoDigit; else if (segment.length() == 3) format.month = CalendarPatternStyle::Short; else if (segment.length() == 4) format.month = CalendarPatternStyle::Long; else if (segment.length() == 5) format.month = CalendarPatternStyle::Narrow; } else if (all_of(segment, is_char('l'))) { // Using 'l' for month formatting is deprecated by TR-35, ensure it is not used. return OptionalNone {}; } // Week else if (all_of(segment, is_any_of("wW"sv))) { // Intl.DateTimeFormat does not support week formatting, so drop these patterns. return OptionalNone {}; } // Day else if (all_of(segment, is_char('d'))) { builder.append("{day}"sv); if (segment.length() == 1) format.day = CalendarPatternStyle::Numeric; else format.day = CalendarPatternStyle::TwoDigit; } else if (all_of(segment, is_any_of("DFg"sv))) { builder.append("{day}"sv); format.day = CalendarPatternStyle::Numeric; } // Weekday else if (all_of(segment, is_char('E'))) { builder.append("{weekday}"sv); if (segment.length() == 4) format.weekday = CalendarPatternStyle::Long; else if (segment.length() == 5) format.weekday = CalendarPatternStyle::Narrow; else format.weekday = CalendarPatternStyle::Short; } else if (all_of(segment, is_any_of("ec"sv))) { builder.append("{weekday}"sv); // TR-35 defines "e", "c", and "cc" as as numeric, and "ee" as 2-digit, but those // pattern styles are not supported by Intl.DateTimeFormat. if (segment.length() <= 2) return OptionalNone {}; if (segment.length() == 4) format.weekday = CalendarPatternStyle::Long; else if (segment.length() == 5) format.weekday = CalendarPatternStyle::Narrow; else format.weekday = CalendarPatternStyle::Short; } // Period else if (all_of(segment, is_any_of("ab"sv))) { builder.append("{ampm}"sv); hour12 = true; } else if (all_of(segment, is_char('B'))) { builder.append("{dayPeriod}"sv); hour12 = true; if (segment.length() == 4) format.day_period = CalendarPatternStyle::Long; else if (segment.length() == 5) format.day_period = CalendarPatternStyle::Narrow; else format.day_period = CalendarPatternStyle::Short; } // Hour else if (all_of(segment, is_any_of("hHKk"sv))) { builder.append("{hour}"sv); if ((segment[0] == 'h') || (segment[0] == 'K')) hour12 = true; if (segment.length() == 1) format.hour = CalendarPatternStyle::Numeric; else format.hour = CalendarPatternStyle::TwoDigit; } else if (all_of(segment, is_any_of("jJC"sv))) { // TR-35 indicates these should not be used. return OptionalNone {}; } // Minute else if (all_of(segment, is_char('m'))) { builder.append("{minute}"sv); if (segment.length() == 1) format.minute = CalendarPatternStyle::Numeric; else format.minute = CalendarPatternStyle::TwoDigit; } // Second else if (all_of(segment, is_char('s'))) { builder.append("{second}"sv); if (segment.length() == 1) format.second = CalendarPatternStyle::Numeric; else format.second = CalendarPatternStyle::TwoDigit; } else if (all_of(segment, is_char('S'))) { builder.append("{fractionalSecondDigits}"sv); VERIFY(segment.length() <= 3); format.fractional_second_digits = static_cast(segment.length()); } else if (all_of(segment, is_char('A'))) { // Intl.DateTimeFormat does not support millisecond formatting, so drop these patterns. return OptionalNone {}; } // Zone else if (all_of(segment, is_any_of("zV"sv))) { builder.append("{timeZoneName}"sv); if (segment.length() < 4) format.time_zone_name = CalendarPatternStyle::Short; else format.time_zone_name = CalendarPatternStyle::Long; } else if (all_of(segment, is_any_of("ZOXx"sv))) { builder.append("{timeZoneName}"sv); if (segment.length() < 4) format.time_zone_name = CalendarPatternStyle::ShortOffset; else format.time_zone_name = CalendarPatternStyle::LongOffset; } else if (all_of(segment, is_char('v'))) { builder.append("{timeZoneName}"sv); if (segment.length() < 4) format.time_zone_name = CalendarPatternStyle::ShortGeneric; else format.time_zone_name = CalendarPatternStyle::LongGeneric; } // Non-patterns else { builder.append(segment); } } auto parsed_pattern = TRY(builder.to_string()); if (hour12) { format.pattern = TRY(remove_period_from_pattern(parsed_pattern)); format.pattern12 = move(parsed_pattern); } else { format.pattern = move(parsed_pattern); } return format; } static ErrorOr> parse_date_time_pattern(ByteString pattern, ByteString skeleton, CLDR& cldr) { auto format = TRY(parse_date_time_pattern_raw(move(pattern), move(skeleton), cldr)); if (!format.has_value()) return OptionalNone {}; format->pattern_index = cldr.unique_strings.ensure(format->pattern.to_byte_string()); if (format->pattern12.has_value()) format->pattern12_index = cldr.unique_strings.ensure(format->pattern12->to_byte_string()); return Optional { cldr.unique_patterns.ensure(format.release_value()) }; } template static constexpr bool char_is_one_of(char ch, Chars&&... chars) { return ((ch == chars) || ...); } static ErrorOr parse_interval_patterns(Calendar& calendar, JsonObject const& interval_formats_object, CLDR& cldr) { // https://unicode.org/reports/tr35/tr35-dates.html#intervalFormats CalendarRangePatternList range_formats {}; CalendarRangePatternList range12_formats {}; auto name_of_field = [&](char field) { if (char_is_one_of(field, 'G')) return Locale::CalendarRangePattern::Field::Era; if (char_is_one_of(field, 'y', 'Y', 'u', 'U', 'r')) return Locale::CalendarRangePattern::Field::Year; if (char_is_one_of(field, 'M', 'L')) return Locale::CalendarRangePattern::Field::Month; if (char_is_one_of(field, 'd', 'D', 'F', 'g')) return Locale::CalendarRangePattern::Field::Day; if (char_is_one_of(field, 'a', 'b')) return Locale::CalendarRangePattern::Field::AmPm; if (char_is_one_of(field, 'B')) return Locale::CalendarRangePattern::Field::DayPeriod; if (char_is_one_of(field, 'h', 'H', 'K', 'k')) return Locale::CalendarRangePattern::Field::Hour; if (char_is_one_of(field, 'm')) return Locale::CalendarRangePattern::Field::Minute; if (char_is_one_of(field, 's')) return Locale::CalendarRangePattern::Field::Second; if (char_is_one_of(field, 'S')) return Locale::CalendarRangePattern::Field::FractionalSecondDigits; VERIFY_NOT_REACHED(); }; auto split_default_range_pattern = [&](auto skeleton, auto const& pattern) { auto start_range_end = pattern.find('}').value() + 1; auto end_range_begin = pattern.find_last('{').value(); auto start_range = pattern.substring_view(0, start_range_end); auto separator = pattern.substring_view(start_range_end, end_range_begin - start_range_end); auto end_range = pattern.substring_view(end_range_begin); CalendarRangePattern format {}; format.skeleton_index = cldr.unique_strings.ensure(skeleton); format.start_range = cldr.unique_strings.ensure(start_range); format.separator = cldr.unique_strings.ensure(separator); format.end_range = cldr.unique_strings.ensure(end_range); return format; }; auto split_range_pattern = [&](auto skeleton, auto field, auto const& pattern, auto const& parsed_fields) { HashMap partitions; StringView last_partition; auto begin_index = pattern.find_byte_offset('{'); size_t end_index = 0; while (begin_index.has_value()) { end_index = pattern.find_byte_offset('}', *begin_index).value(); auto partition = pattern.bytes_as_string_view().substring_view(*begin_index, end_index - *begin_index); if (partitions.contains(partition)) break; partitions.set(partition, *begin_index); last_partition = partition; begin_index = pattern.find_byte_offset('{', end_index + 1); } VERIFY(begin_index.has_value() && !last_partition.is_empty()); auto start_range_end = partitions.get(last_partition).value() + last_partition.length() + 1; auto pattern_view = pattern.bytes_as_string_view(); auto start_range = pattern_view.substring_view(0, start_range_end); auto separator = pattern_view.substring_view(start_range_end, *begin_index - start_range_end); auto end_range = pattern_view.substring_view(*begin_index); CalendarRangePattern format {}; format.skeleton_index = cldr.unique_strings.ensure(skeleton); format.field = field; format.start_range = cldr.unique_strings.ensure(start_range); format.separator = cldr.unique_strings.ensure(separator); format.end_range = cldr.unique_strings.ensure(end_range); format.for_each_calendar_field_zipped_with(parsed_fields, [](auto& format_field, auto const& parsed_field, auto) { format_field = parsed_field; }); return format; }; TRY(interval_formats_object.try_for_each_member([&](auto const& skeleton, auto const& value) -> ErrorOr { if (skeleton == "intervalFormatFallback"sv) { auto range_format = split_default_range_pattern(skeleton, value.as_string()); calendar.default_range_format = cldr.unique_range_patterns.ensure(move(range_format)); return {}; } TRY(value.as_object().try_for_each_member([&](auto const& field, auto const& pattern) -> ErrorOr { if (field.ends_with("alt-variant"sv)) return {}; VERIFY(field.length() == 1); auto name = name_of_field(field[0]); auto format = TRY(parse_date_time_pattern_raw(pattern.as_string(), skeleton, cldr)).release_value(); auto range_format = split_range_pattern(skeleton, name, format.pattern, format); range_formats.append(cldr.unique_range_patterns.ensure(move(range_format))); if (format.pattern12.has_value()) { auto range12_pattern = split_range_pattern(skeleton, name, *format.pattern12, format); range12_formats.append(cldr.unique_range_patterns.ensure(move(range12_pattern))); } else { range12_formats.append(range_formats.last()); } return {}; })); return {}; })); calendar.range_formats = cldr.unique_range_pattern_lists.ensure(move(range_formats)); calendar.range12_formats = cldr.unique_range_pattern_lists.ensure(move(range12_formats)); return {}; } static ErrorOr generate_default_patterns(CalendarPatternList& formats, CLDR& cldr) { // For compatibility with ICU, we generate a list of default patterns for every locale: // https://github.com/unicode-org/icu/blob/release-71-1/icu4c/source/i18n/dtptngen.cpp#L1343-L1354= static constexpr auto default_patterns = Array { "G"sv, "y"sv, "M"sv, "E"sv, "D"sv, "F"sv, "d"sv, "a"sv, "B"sv, "H"sv, "mm"sv, "ss"sv, "SS"sv, "v"sv }; for (auto pattern : default_patterns) { auto index = TRY(parse_date_time_pattern(pattern, pattern, cldr)); VERIFY(index.has_value()); if (!formats.contains_slow(*index)) formats.append(*index); } return {}; } static void generate_missing_patterns(Calendar& calendar, CalendarPatternList& formats, Vector date_formats, Vector time_formats, CLDR& cldr) { // https://unicode.org/reports/tr35/tr35-dates.html#Missing_Skeleton_Fields auto replace_pattern = [&](auto format, auto time_format, auto date_format) { auto pattern = cldr.unique_strings.get(format); auto time_pattern = cldr.unique_strings.get(time_format); auto date_pattern = cldr.unique_strings.get(date_format); auto new_pattern = pattern.replace("{0}"sv, time_pattern, ReplaceMode::FirstOnly).replace("{1}"sv, date_pattern, ReplaceMode::FirstOnly); return cldr.unique_strings.ensure(move(new_pattern)); }; auto inject_fractional_second_digits = [&](auto format) { auto pattern = cldr.unique_strings.get(format); auto new_pattern = pattern.replace("{second}"sv, "{second}{decimal}{fractionalSecondDigits}"sv, ReplaceMode::FirstOnly); return cldr.unique_strings.ensure(move(new_pattern)); }; auto append_if_unique = [&](auto format) { auto format_index = cldr.unique_patterns.ensure(move(format)); if (!formats.contains_slow(format_index)) formats.append(format_index); }; Vector time_formats_with_fractional_second_digits; for (auto const& format : date_formats) append_if_unique(format); for (auto const& format : time_formats) { append_if_unique(format); if (format.second.has_value() && !format.fractional_second_digits.has_value()) { auto new_format = format; new_format.fractional_second_digits = 2; new_format.pattern_index = inject_fractional_second_digits(new_format.pattern_index); if (new_format.pattern12_index != 0) new_format.pattern12_index = inject_fractional_second_digits(new_format.pattern12_index); time_formats_with_fractional_second_digits.append(new_format); append_if_unique(move(new_format)); } } time_formats.extend(move(time_formats_with_fractional_second_digits)); for (auto const& date_format : date_formats) { auto const& date_time_formats = cldr.unique_formats.get(calendar.date_time_formats); size_t date_time_format_index = 0; if (date_format.month == Locale::CalendarPatternStyle::Long) { if (date_format.weekday.has_value()) date_time_format_index = date_time_formats.full_format; else date_time_format_index = date_time_formats.long_format; } else if (date_format.month == Locale::CalendarPatternStyle::Short) { date_time_format_index = date_time_formats.medium_format; } else { date_time_format_index = date_time_formats.short_format; } for (auto const& time_format : time_formats) { auto format = cldr.unique_patterns.get(date_time_format_index); if (time_format.pattern12_index != 0) format.pattern12_index = replace_pattern(format.pattern_index, time_format.pattern12_index, date_format.pattern_index); format.pattern_index = replace_pattern(format.pattern_index, time_format.pattern_index, date_format.pattern_index); format.for_each_calendar_field_zipped_with(date_format, [](auto& field, auto const& date_field, auto) { if (date_field.has_value()) field = date_field; }); format.for_each_calendar_field_zipped_with(time_format, [](auto& field, auto const& time_field, auto) { if (time_field.has_value()) field = time_field; }); append_if_unique(move(format)); } } } static void parse_calendar_symbols(Calendar& calendar, JsonObject const& calendar_object, CLDR& cldr) { auto create_symbol_lists = [](size_t size) { SymbolList narrow_symbol_list; SymbolList short_symbol_list; SymbolList long_symbol_list; narrow_symbol_list.resize(size); short_symbol_list.resize(size); long_symbol_list.resize(size); return Array { { move(narrow_symbol_list), move(short_symbol_list), move(long_symbol_list), } }; }; CalendarSymbolsList symbols_list {}; auto store_symbol_lists = [&](auto symbol, auto symbol_lists) { auto symbol_index = to_underlying(symbol); if (symbol_index >= symbols_list.size()) symbols_list.resize(symbol_index + 1); CalendarSymbols symbols {}; symbols.narrow_symbols = cldr.unique_symbol_lists.ensure(move(symbol_lists[0])); symbols.short_symbols = cldr.unique_symbol_lists.ensure(move(symbol_lists[1])); symbols.long_symbols = cldr.unique_symbol_lists.ensure(move(symbol_lists[2])); auto calendar_symbols_index = cldr.unique_calendar_symbols.ensure(move(symbols)); symbols_list[symbol_index] = calendar_symbols_index; }; auto parse_era_symbols = [&](auto const& symbols_object) { auto const& narrow_symbols = symbols_object.get_object("eraNarrow"sv).value(); auto const& short_symbols = symbols_object.get_object("eraAbbr"sv).value(); auto const& long_symbols = symbols_object.get_object("eraNames"sv).value(); auto symbol_lists = create_symbol_lists(2); auto append_symbol = [&](auto& symbols, auto const& key, auto symbol) { if (auto key_index = key.template to_number(); key_index.has_value()) symbols[*key_index] = cldr.unique_strings.ensure(move(symbol)); }; narrow_symbols.for_each_member([&](auto const& key, JsonValue const& value) { append_symbol(symbol_lists[0], key, value.as_string()); }); short_symbols.for_each_member([&](auto const& key, JsonValue const& value) { append_symbol(symbol_lists[1], key, value.as_string()); }); long_symbols.for_each_member([&](auto const& key, JsonValue const& value) { append_symbol(symbol_lists[2], key, value.as_string()); }); store_symbol_lists(Locale::CalendarSymbol::Era, move(symbol_lists)); }; auto parse_month_symbols = [&](auto const& symbols_object) { auto const& narrow_symbols = symbols_object.get_object("narrow"sv).value(); auto const& short_symbols = symbols_object.get_object("abbreviated"sv).value(); auto const& long_symbols = symbols_object.get_object("wide"sv).value(); auto symbol_lists = create_symbol_lists(12); auto append_symbol = [&](auto& symbols, auto const& key, auto symbol) { auto key_index = key.template to_number().value() - 1; symbols[key_index] = cldr.unique_strings.ensure(move(symbol)); }; narrow_symbols.for_each_member([&](auto const& key, JsonValue const& value) { append_symbol(symbol_lists[0], key, value.as_string()); }); short_symbols.for_each_member([&](auto const& key, JsonValue const& value) { append_symbol(symbol_lists[1], key, value.as_string()); }); long_symbols.for_each_member([&](auto const& key, JsonValue const& value) { append_symbol(symbol_lists[2], key, value.as_string()); }); store_symbol_lists(Locale::CalendarSymbol::Month, move(symbol_lists)); }; auto parse_weekday_symbols = [&](auto const& symbols_object) { auto const& narrow_symbols = symbols_object.get_object("narrow"sv).value(); auto const& short_symbols = symbols_object.get_object("abbreviated"sv).value(); auto const& long_symbols = symbols_object.get_object("wide"sv).value(); auto symbol_lists = create_symbol_lists(7); auto append_symbol = [&](auto& symbols, auto const& key, auto symbol) { if (key == "sun"sv) symbols[to_underlying(Locale::Weekday::Sunday)] = cldr.unique_strings.ensure(move(symbol)); else if (key == "mon"sv) symbols[to_underlying(Locale::Weekday::Monday)] = cldr.unique_strings.ensure(move(symbol)); else if (key == "tue"sv) symbols[to_underlying(Locale::Weekday::Tuesday)] = cldr.unique_strings.ensure(move(symbol)); else if (key == "wed"sv) symbols[to_underlying(Locale::Weekday::Wednesday)] = cldr.unique_strings.ensure(move(symbol)); else if (key == "thu"sv) symbols[to_underlying(Locale::Weekday::Thursday)] = cldr.unique_strings.ensure(move(symbol)); else if (key == "fri"sv) symbols[to_underlying(Locale::Weekday::Friday)] = cldr.unique_strings.ensure(move(symbol)); else if (key == "sat"sv) symbols[to_underlying(Locale::Weekday::Saturday)] = cldr.unique_strings.ensure(move(symbol)); }; narrow_symbols.for_each_member([&](auto const& key, JsonValue const& value) { append_symbol(symbol_lists[0], key, value.as_string()); }); short_symbols.for_each_member([&](auto const& key, JsonValue const& value) { append_symbol(symbol_lists[1], key, value.as_string()); }); long_symbols.for_each_member([&](auto const& key, JsonValue const& value) { append_symbol(symbol_lists[2], key, value.as_string()); }); store_symbol_lists(Locale::CalendarSymbol::Weekday, move(symbol_lists)); }; auto parse_day_period_symbols = [&](auto const& symbols_object) { auto const& narrow_symbols = symbols_object.get_object("narrow"sv).value(); auto const& short_symbols = symbols_object.get_object("abbreviated"sv).value(); auto const& long_symbols = symbols_object.get_object("wide"sv).value(); auto symbol_lists = create_symbol_lists(11); auto append_symbol = [&](auto& symbols, auto const& key, auto symbol) { if (auto day_period = day_period_from_string(key); day_period.has_value()) symbols[to_underlying(*day_period)] = cldr.unique_strings.ensure(move(symbol)); }; narrow_symbols.for_each_member([&](auto const& key, JsonValue const& value) { append_symbol(symbol_lists[0], key, value.as_string()); }); short_symbols.for_each_member([&](auto const& key, JsonValue const& value) { append_symbol(symbol_lists[1], key, value.as_string()); }); long_symbols.for_each_member([&](auto const& key, JsonValue const& value) { append_symbol(symbol_lists[2], key, value.as_string()); }); store_symbol_lists(Locale::CalendarSymbol::DayPeriod, move(symbol_lists)); }; parse_era_symbols(calendar_object.get_object("eras"sv).value()); parse_month_symbols(calendar_object.get_object("months"sv)->get_object("format"sv).value()); parse_weekday_symbols(calendar_object.get_object("days"sv)->get_object("format"sv).value()); parse_day_period_symbols(calendar_object.get_object("dayPeriods"sv)->get_object("format"sv).value()); calendar.symbols = cldr.unique_calendar_symbols_lists.ensure(move(symbols_list)); } static ErrorOr parse_calendars(ByteString locale_calendars_path, CLDR& cldr, LocaleData& locale) { LexicalPath calendars_path(move(locale_calendars_path)); if (!calendars_path.basename().starts_with("ca-"sv)) return {}; auto calendars = TRY(read_json_file(calendars_path.string())); auto const& main_object = calendars.as_object().get_object("main"sv).value(); auto const& locale_object = main_object.get_object(calendars_path.parent().basename()).value(); auto const& dates_object = locale_object.get_object("dates"sv).value(); auto const& calendars_object = dates_object.get_object("calendars"sv).value(); auto parse_patterns = [&](auto const& patterns_object, auto const& skeletons_object, Vector* patterns) -> ErrorOr { auto parse_pattern = [&](auto name) -> ErrorOr { auto format = patterns_object.get_byte_string(name); auto skeleton = skeletons_object.get_byte_string(name); auto format_index = TRY(parse_date_time_pattern(format.value(), skeleton.value_or(ByteString::empty()), cldr)).value(); if (patterns) patterns->append(cldr.unique_patterns.get(format_index)); return format_index; }; CalendarFormat formats {}; formats.full_format = TRY(parse_pattern("full"sv)); formats.long_format = TRY(parse_pattern("long"sv)); formats.medium_format = TRY(parse_pattern("medium"sv)); formats.short_format = TRY(parse_pattern("short"sv)); return cldr.unique_formats.ensure(move(formats)); }; TRY(calendars_object.try_for_each_member([&](auto const& calendar_name, JsonValue const& value) -> ErrorOr { // The generic calendar is not a supported Unicode calendar key, so skip it: // https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Global_Objects/Intl/Locale/calendar#unicode_calendar_keys if (calendar_name == "generic"sv) return {}; Calendar calendar {}; CalendarPatternList available_formats {}; if (!cldr.calendars.contains_slow(calendar_name)) cldr.calendars.append(calendar_name); Vector date_formats; Vector time_formats; auto const& date_formats_object = value.as_object().get_object("dateFormats"sv).value(); auto const& date_skeletons_object = value.as_object().get_object("dateSkeletons"sv).value(); calendar.date_formats = TRY(parse_patterns(date_formats_object, date_skeletons_object, &date_formats)); auto const& time_formats_object = value.as_object().get_object("timeFormats"sv).value(); auto const& time_skeletons_object = value.as_object().get_object("timeSkeletons"sv).value(); calendar.time_formats = TRY(parse_patterns(time_formats_object, time_skeletons_object, &time_formats)); auto const& standard_date_time_formats_object = value.as_object().get_object("dateTimeFormats-atTime"sv)->get_object("standard"sv).value(); calendar.date_time_formats = TRY(parse_patterns(standard_date_time_formats_object, JsonObject {}, nullptr)); auto const& date_time_formats_object = value.as_object().get_object("dateTimeFormats"sv).value(); auto const& available_formats_object = date_time_formats_object.get_object("availableFormats"sv).value(); TRY(available_formats_object.try_for_each_member([&](auto const& skeleton, JsonValue const& pattern) -> ErrorOr { auto pattern_index = TRY(parse_date_time_pattern(pattern.as_string(), skeleton, cldr)); if (!pattern_index.has_value()) return {}; auto const& format = cldr.unique_patterns.get(*pattern_index); if (format.contains_only_date_fields()) date_formats.append(format); else if (format.contains_only_time_fields()) time_formats.append(format); if (!available_formats.contains_slow(*pattern_index)) available_formats.append(*pattern_index); return {}; })); auto const& interval_formats_object = date_time_formats_object.get_object("intervalFormats"sv).value(); TRY(parse_interval_patterns(calendar, interval_formats_object, cldr)); TRY(generate_default_patterns(available_formats, cldr)); generate_missing_patterns(calendar, available_formats, move(date_formats), move(time_formats), cldr); parse_calendar_symbols(calendar, value.as_object(), cldr); calendar.available_formats = cldr.unique_pattern_lists.ensure(move(available_formats)); locale.calendars.set(calendar_name, cldr.unique_calendars.ensure(move(calendar))); return {}; })); return {}; } static ErrorOr parse_time_zone_names(ByteString locale_time_zone_names_path, CLDR& cldr, LocaleData& locale) { LexicalPath time_zone_names_path(move(locale_time_zone_names_path)); time_zone_names_path = time_zone_names_path.append("timeZoneNames.json"sv); auto time_zone_names = TRY(read_json_file(time_zone_names_path.string())); auto const& main_object = time_zone_names.as_object().get_object("main"sv).value(); auto const& locale_object = main_object.get_object(time_zone_names_path.parent().basename()).value(); auto const& dates_object = locale_object.get_object("dates"sv).value(); auto const& time_zone_names_object = dates_object.get_object("timeZoneNames"sv).value(); auto const& meta_zone_object = time_zone_names_object.get_object("metazone"sv); auto const& hour_format_string = time_zone_names_object.get_byte_string("hourFormat"sv).value(); auto const& gmt_format_string = time_zone_names_object.get_byte_string("gmtFormat"sv).value(); auto const& gmt_zero_format_string = time_zone_names_object.get_byte_string("gmtZeroFormat"sv).value(); if (!meta_zone_object.has_value()) return {}; auto parse_name = [&](StringView type, JsonObject const& meta_zone_object, StringView key) -> Optional { auto const& names = meta_zone_object.get_object(type); if (!names.has_value()) return {}; auto const& name = names->get_byte_string(key); if (name.has_value()) return cldr.unique_strings.ensure(name.value()); return {}; }; auto parse_hour_format = [&](auto const& format, auto& time_zone_formats) { auto hour_formats = format.split_view(';'); auto hour_format_ahead_start = hour_formats[0].find('H').value(); auto separator_ahead_start = hour_formats[0].find_last('H').value() + 1; auto separator_ahead_end = hour_formats[0].find('m').value(); auto hour_format_behind_start = hour_formats[1].find('H').value(); auto separator_behind_start = hour_formats[1].find_last('H').value() + 1; auto separator_behind_end = hour_formats[1].find('m').value(); auto symbol_ahead_sign = hour_formats[0].substring_view(0, hour_format_ahead_start); auto symbol_ahead_separator = hour_formats[0].substring_view(separator_ahead_start, separator_ahead_end - separator_ahead_start); auto symbol_behind_sign = hour_formats[1].substring_view(0, hour_format_behind_start); auto symbol_behind_separator = hour_formats[1].substring_view(separator_behind_start, separator_behind_end - separator_behind_start); time_zone_formats.symbol_ahead_sign = cldr.unique_strings.ensure(symbol_ahead_sign); time_zone_formats.symbol_ahead_separator = cldr.unique_strings.ensure(symbol_ahead_separator); time_zone_formats.symbol_behind_sign = cldr.unique_strings.ensure(symbol_behind_sign); time_zone_formats.symbol_behind_separator = cldr.unique_strings.ensure(symbol_behind_separator); }; TimeZoneNamesList time_zones; TimeZoneFormat time_zone_formats {}; parse_hour_format(hour_format_string, time_zone_formats); time_zone_formats.gmt_format = cldr.unique_strings.ensure(gmt_format_string); time_zone_formats.gmt_zero_format = cldr.unique_strings.ensure(gmt_zero_format_string); auto parse_time_zone = [&](StringView meta_zone, JsonObject const& meta_zone_object) { auto golden_zones = cldr.meta_zones.find(meta_zone); if (golden_zones == cldr.meta_zones.end()) return; TimeZoneNames time_zone_names {}; if (auto name = parse_name("long"sv, meta_zone_object, "standard"sv); name.has_value()) time_zone_names.long_standard_name = name.value(); if (auto name = parse_name("short"sv, meta_zone_object, "standard"sv); name.has_value()) time_zone_names.short_standard_name = name.value(); if (auto name = parse_name("long"sv, meta_zone_object, "daylight"sv); name.has_value()) time_zone_names.long_daylight_name = name.value(); if (auto name = parse_name("short"sv, meta_zone_object, "daylight"sv); name.has_value()) time_zone_names.short_daylight_name = name.value(); if (auto name = parse_name("long"sv, meta_zone_object, "generic"sv); name.has_value()) time_zone_names.long_generic_name = name.value(); if (auto name = parse_name("short"sv, meta_zone_object, "generic"sv); name.has_value()) time_zone_names.short_generic_name = name.value(); auto time_zone_index = cldr.unique_time_zones.ensure(move(time_zone_names)); for (auto golden_zone : golden_zones->value) { auto time_zone = to_underlying(golden_zone); if (time_zone >= time_zones.size()) time_zones.resize(time_zone + 1); time_zones[time_zone] = time_zone_index; } }; meta_zone_object->for_each_member([&](auto const& meta_zone, JsonValue const& value) { parse_time_zone(meta_zone, value.as_object()); }); // The long and short names for UTC are not under the "timeZoneNames/metazone" object, but are under "timeZoneNames/zone/Etc". auto const& zone_object = time_zone_names_object.get_object("zone"sv).value(); auto const& etc_object = zone_object.get_object("Etc"sv).value(); auto const& utc_object = etc_object.get_object("UTC"sv).value(); parse_time_zone("UTC"sv, utc_object); locale.time_zones = cldr.unique_time_zone_lists.ensure(move(time_zones)); locale.time_zone_formats = cldr.unique_time_zone_formats.ensure(move(time_zone_formats)); return {}; } static ErrorOr parse_day_periods(ByteString core_path, CLDR& cldr) { // https://unicode.org/reports/tr35/tr35-dates.html#Day_Period_Rule_Sets LexicalPath day_periods_path(move(core_path)); day_periods_path = day_periods_path.append("supplemental"sv); day_periods_path = day_periods_path.append("dayPeriods.json"sv); auto locale_day_periods = TRY(read_json_file(day_periods_path.string())); auto const& supplemental_object = locale_day_periods.as_object().get_object("supplemental"sv).value(); auto const& day_periods_object = supplemental_object.get_object("dayPeriodRuleSet"sv).value(); auto parse_hour = [](auto const& time) { auto hour_end_index = time.find(':').value(); // The times are in the form "hours:minutes", but we only need the hour segment. // TR-35 explicitly states that minutes other than :00 must not be used. VERIFY(time.substring_view(hour_end_index) == ":00"sv); auto hour = time.substring_view(0, hour_end_index); return hour.template to_number().value(); }; auto parse_day_period = [&](auto const& symbol, auto const& ranges) -> Optional { if (!ranges.has("_from"sv)) return {}; auto day_period = day_period_from_string(symbol); if (!day_period.has_value()) return {}; auto begin = parse_hour(ranges.get_byte_string("_from"sv).value()); auto end = parse_hour(ranges.get_byte_string("_before"sv).value()); return DayPeriod { *day_period, begin, end }; }; day_periods_object.for_each_member([&](auto const& language, JsonValue const& value) { auto locale = cldr.locales.find(language); if (locale == cldr.locales.end()) return; DayPeriodList day_periods; value.as_object().for_each_member([&](auto const& symbol, JsonValue const& ranges) { if (auto day_period = parse_day_period(symbol, ranges.as_object()); day_period.has_value()) { auto day_period_index = cldr.unique_day_periods.ensure(day_period.release_value()); day_periods.append(day_period_index); } }); locale->value.day_periods = cldr.unique_day_period_lists.ensure(move(day_periods)); }); return {}; } static ErrorOr parse_all_locales(ByteString core_path, ByteString dates_path, CLDR& cldr) { TRY(parse_hour_cycles(core_path, cldr)); TRY(parse_week_data(core_path, cldr)); TRY(parse_meta_zones(core_path, cldr)); auto remove_variants_from_path = [&](ByteString path) -> ErrorOr { auto parsed_locale = TRY(CanonicalLanguageID::parse(cldr.unique_strings, LexicalPath::basename(path))); StringBuilder builder; builder.append(cldr.unique_strings.get(parsed_locale.language)); if (auto script = cldr.unique_strings.get(parsed_locale.script); !script.is_empty()) builder.appendff("-{}", script); if (auto region = cldr.unique_strings.get(parsed_locale.region); !region.is_empty()) builder.appendff("-{}", region); return builder.to_byte_string(); }; TRY(Core::Directory::for_each_entry(TRY(String::formatted("{}/main", dates_path)), Core::DirIterator::SkipParentAndBaseDir, [&](auto& entry, auto& directory) -> ErrorOr { auto dates_path = LexicalPath::join(directory.path().string(), entry.name).string(); auto language = TRY(remove_variants_from_path(dates_path)); auto& locale = cldr.locales.ensure(language); TRY(Core::Directory::for_each_entry(dates_path, Core::DirIterator::SkipParentAndBaseDir, [&](auto& dates_entry, auto& dates_directory) -> ErrorOr { auto calendars_path = LexicalPath::join(dates_directory.path().string(), dates_entry.name).string(); TRY(parse_calendars(move(calendars_path), cldr, locale)); return IterationDecision::Continue; })); TRY(parse_time_zone_names(move(dates_path), cldr, locale)); return IterationDecision::Continue; })); TRY(parse_day_periods(move(core_path), cldr)); return {}; } static ByteString format_identifier(StringView owner, ByteString identifier) { identifier = identifier.replace("-"sv, "_"sv, ReplaceMode::All); identifier = identifier.replace("/"sv, "_"sv, ReplaceMode::All); if (all_of(identifier, is_ascii_digit)) return ByteString::formatted("{}_{}", owner[0], identifier); if (is_ascii_lower_alpha(identifier[0])) return ByteString::formatted("{:c}{}", to_ascii_uppercase(identifier[0]), identifier.substring_view(1)); return identifier; } static ErrorOr generate_unicode_locale_header(Core::InputBufferedFile& file, CLDR& cldr) { StringBuilder builder; SourceGenerator generator { builder }; generator.append(R"~~~( #pragma once #include namespace Locale { )~~~"); generate_enum(generator, format_identifier, "Calendar"sv, {}, cldr.calendars); generate_enum(generator, format_identifier, "HourCycleRegion"sv, {}, cldr.hour_cycle_regions); generate_enum(generator, format_identifier, "MinimumDaysRegion"sv, {}, cldr.minimum_days_regions); generate_enum(generator, format_identifier, "FirstDayRegion"sv, {}, cldr.first_day_regions); generate_enum(generator, format_identifier, "WeekendStartRegion"sv, {}, cldr.weekend_start_regions); generate_enum(generator, format_identifier, "WeekendEndRegion"sv, {}, cldr.weekend_end_regions); generator.append(R"~~~( } )~~~"); TRY(file.write_until_depleted(generator.as_string_view().bytes())); return {}; } static ErrorOr generate_unicode_locale_implementation(Core::InputBufferedFile& file, CLDR& cldr) { StringBuilder builder; SourceGenerator generator { builder }; generator.set("string_index_type"sv, cldr.unique_strings.type_that_fits()); generator.set("calendar_pattern_index_type"sv, cldr.unique_patterns.type_that_fits()); generator.set("calendar_pattern_list_index_type"sv, cldr.unique_pattern_lists.type_that_fits()); generator.set("calendar_range_pattern_index_type"sv, cldr.unique_range_patterns.type_that_fits()); generator.set("calendar_range_pattern_list_index_type"sv, cldr.unique_range_pattern_lists.type_that_fits()); generator.set("calendar_format_index_type"sv, cldr.unique_formats.type_that_fits()); generator.set("symbol_list_index_type"sv, cldr.unique_symbol_lists.type_that_fits()); generator.set("calendar_symbols_index_type"sv, cldr.unique_calendar_symbols.type_that_fits()); generator.set("calendar_symbols_list_index_type"sv, cldr.unique_calendar_symbols_lists.type_that_fits()); generator.set("calendar_index_type"sv, cldr.unique_calendars.type_that_fits()); generator.set("time_zone_index_type"sv, cldr.unique_time_zones.type_that_fits()); generator.set("time_zone_list_index_type"sv, cldr.unique_time_zone_lists.type_that_fits()); generator.set("day_period_index_type"sv, cldr.unique_day_periods.type_that_fits()); generator.set("day_period_list_index_type"sv, cldr.unique_day_period_lists.type_that_fits()); generator.append(R"~~~( #include #include #include #include #include #include #include #include #include #include #include namespace Locale { )~~~"); cldr.unique_strings.generate(generator); generator.append(R"~~~( template static void convert_calendar_fields(SourceType const& source, TargetType& target) { if (source.era != -1) target.era = static_cast(source.era); if (source.year != -1) target.year = static_cast(source.year); if (source.month != -1) target.month = static_cast(source.month); if (source.weekday != -1) target.weekday = static_cast(source.weekday); if (source.day != -1) target.day = static_cast(source.day); if (source.day_period != -1) target.day_period = static_cast(source.day_period); if (source.hour != -1) target.hour = static_cast(source.hour); if (source.minute != -1) target.minute = static_cast(source.minute); if (source.second != -1) target.second = static_cast(source.second); if (source.fractional_second_digits != -1) target.fractional_second_digits = static_cast(source.fractional_second_digits); if (source.time_zone_name != -1) target.time_zone_name = static_cast(source.time_zone_name); } struct CalendarPatternImpl { CalendarPattern to_unicode_calendar_pattern() const { CalendarPattern calendar_pattern {}; calendar_pattern.skeleton = MUST(String::from_utf8(decode_string(skeleton))); calendar_pattern.pattern = MUST(String::from_utf8(decode_string(pattern))); if (pattern12 != 0) calendar_pattern.pattern12 = MUST(String::from_utf8(decode_string(pattern12))); convert_calendar_fields(*this, calendar_pattern); return calendar_pattern; } @string_index_type@ skeleton { 0 }; @string_index_type@ pattern { 0 }; @string_index_type@ pattern12 { 0 }; i8 era { -1 }; i8 year { -1 }; i8 month { -1 }; i8 weekday { -1 }; i8 day { -1 }; i8 day_period { -1 }; i8 hour { -1 }; i8 minute { -1 }; i8 second { -1 }; i8 fractional_second_digits { -1 }; i8 time_zone_name { -1 }; }; struct CalendarRangePatternImpl { CalendarRangePattern to_unicode_calendar_range_pattern() const { CalendarRangePattern calendar_range_pattern {}; if (field != -1) calendar_range_pattern.field = static_cast(field); calendar_range_pattern.start_range = MUST(String::from_utf8(decode_string(start_range))); calendar_range_pattern.separator = decode_string(separator); calendar_range_pattern.end_range = MUST(String::from_utf8(decode_string(end_range))); convert_calendar_fields(*this, calendar_range_pattern); return calendar_range_pattern; } @string_index_type@ skeleton { 0 }; i8 field { -1 }; @string_index_type@ start_range { 0 }; @string_index_type@ separator { 0 }; @string_index_type@ end_range { 0 }; i8 era { -1 }; i8 year { -1 }; i8 month { -1 }; i8 weekday { -1 }; i8 day { -1 }; i8 day_period { -1 }; i8 hour { -1 }; i8 minute { -1 }; i8 second { -1 }; i8 fractional_second_digits { -1 }; i8 time_zone_name { -1 }; }; )~~~"); cldr.unique_patterns.generate(generator, "CalendarPatternImpl"sv, "s_calendar_patterns"sv, 10); cldr.unique_pattern_lists.generate(generator, cldr.unique_patterns.type_that_fits(), "s_calendar_pattern_lists"sv); cldr.unique_range_patterns.generate(generator, "CalendarRangePatternImpl"sv, "s_calendar_range_patterns"sv, 10); cldr.unique_range_pattern_lists.generate(generator, cldr.unique_range_patterns.type_that_fits(), "s_calendar_range_pattern_lists"sv); generator.append(R"~~~( struct CalendarFormatImpl { CalendarFormat to_unicode_calendar_format() const { CalendarFormat calendar_format {}; calendar_format.full_format = s_calendar_patterns[full_format].to_unicode_calendar_pattern(); calendar_format.long_format = s_calendar_patterns[long_format].to_unicode_calendar_pattern(); calendar_format.medium_format = s_calendar_patterns[medium_format].to_unicode_calendar_pattern(); calendar_format.short_format = s_calendar_patterns[short_format].to_unicode_calendar_pattern(); return calendar_format; } @calendar_pattern_index_type@ full_format { 0 }; @calendar_pattern_index_type@ long_format { 0 }; @calendar_pattern_index_type@ medium_format { 0 }; @calendar_pattern_index_type@ short_format { 0 }; }; struct CalendarSymbols { @symbol_list_index_type@ narrow_symbols { 0 }; @symbol_list_index_type@ short_symbols { 0 }; @symbol_list_index_type@ long_symbols { 0 }; }; struct CalendarData { @calendar_format_index_type@ date_formats { 0 }; @calendar_format_index_type@ time_formats { 0 }; @calendar_format_index_type@ date_time_formats { 0 }; @calendar_pattern_list_index_type@ available_formats { 0 }; @calendar_range_pattern_index_type@ default_range_format { 0 }; @calendar_range_pattern_list_index_type@ range_formats { 0 }; @calendar_range_pattern_list_index_type@ range12_formats { 0 }; @calendar_symbols_list_index_type@ symbols { 0 }; }; struct TimeZoneNames { @string_index_type@ short_standard_name { 0 }; @string_index_type@ long_standard_name { 0 }; @string_index_type@ short_daylight_name { 0 }; @string_index_type@ long_daylight_name { 0 }; @string_index_type@ short_generic_name { 0 }; @string_index_type@ long_generic_name { 0 }; }; struct TimeZoneFormatImpl { TimeZoneFormat to_time_zone_format() const { TimeZoneFormat time_zone_format {}; time_zone_format.symbol_ahead_sign = decode_string(symbol_ahead_sign); time_zone_format.symbol_ahead_separator = decode_string(symbol_ahead_separator); time_zone_format.symbol_behind_sign = decode_string(symbol_behind_sign); time_zone_format.symbol_behind_separator = decode_string(symbol_behind_separator); time_zone_format.gmt_format = decode_string(gmt_format); time_zone_format.gmt_zero_format = decode_string(gmt_zero_format); return time_zone_format; } @string_index_type@ symbol_ahead_sign { 0 }; @string_index_type@ symbol_ahead_separator { 0 }; @string_index_type@ symbol_behind_sign { 0 }; @string_index_type@ symbol_behind_separator { 0 }; @string_index_type@ gmt_format { 0 }; @string_index_type@ gmt_zero_format { 0 }; }; struct DayPeriodData { u8 day_period { 0 }; u8 begin { 0 }; u8 end { 0 }; }; )~~~"); cldr.unique_formats.generate(generator, "CalendarFormatImpl"sv, "s_calendar_formats"sv, 10); cldr.unique_symbol_lists.generate(generator, cldr.unique_strings.type_that_fits(), "s_symbol_lists"sv); cldr.unique_calendar_symbols.generate(generator, "CalendarSymbols"sv, "s_calendar_symbols"sv, 10); cldr.unique_calendar_symbols_lists.generate(generator, cldr.unique_calendar_symbols.type_that_fits(), "s_calendar_symbol_lists"sv); cldr.unique_calendars.generate(generator, "CalendarData"sv, "s_calendars"sv, 10); cldr.unique_time_zones.generate(generator, "TimeZoneNames"sv, "s_time_zones"sv, 30); cldr.unique_time_zone_lists.generate(generator, cldr.unique_time_zones.type_that_fits(), "s_time_zone_lists"sv); cldr.unique_time_zone_formats.generate(generator, "TimeZoneFormatImpl"sv, "s_time_zone_formats"sv, 30); cldr.unique_day_periods.generate(generator, "DayPeriodData"sv, "s_day_periods"sv, 30); cldr.unique_day_period_lists.generate(generator, cldr.unique_day_periods.type_that_fits(), "s_day_period_lists"sv); cldr.unique_hour_cycle_lists.generate(generator, cldr.unique_hour_cycle_lists.type_that_fits(), "s_hour_cycle_lists"sv); auto append_calendars = [&](ByteString name, auto const& calendars) { generator.set("name", name); generator.set("size", ByteString::number(calendars.size())); generator.append(R"~~~( static constexpr Array<@calendar_index_type@, @size@> @name@ { {)~~~"); bool first = true; for (auto const& calendar_key : cldr.calendars) { auto calendar = calendars.find(calendar_key)->value; generator.append(first ? " "sv : ", "sv); generator.append(ByteString::number(calendar)); first = false; } generator.append(" } };"); }; auto append_mapping = [&](auto const& keys, auto const& map, auto type, auto name, auto mapping_getter) { generator.set("type", type); generator.set("name", name); generator.set("size", ByteString::number(keys.size())); generator.append(R"~~~( static constexpr Array<@type@, @size@> @name@ { {)~~~"); bool first = true; for (auto const& key : keys) { auto const& value = map.find(key)->value; auto mapping = mapping_getter(value); generator.append(first ? " "sv : ", "sv); generator.append(ByteString::number(mapping)); first = false; } generator.append(" } };"); }; auto locales = cldr.locales.keys(); quick_sort(locales); generate_mapping(generator, cldr.locales, cldr.unique_calendars.type_that_fits(), "s_locale_calendars"sv, "s_calendars_{}"sv, format_identifier, [&](auto const& name, auto const& value) { append_calendars(name, value.calendars); }); append_mapping(locales, cldr.locales, cldr.unique_time_zones.type_that_fits(), "s_locale_time_zones"sv, [](auto const& locale) { return locale.time_zones; }); append_mapping(locales, cldr.locales, cldr.unique_time_zone_formats.type_that_fits(), "s_locale_time_zone_formats"sv, [](auto const& locale) { return locale.time_zone_formats; }); append_mapping(locales, cldr.locales, cldr.unique_day_periods.type_that_fits(), "s_locale_day_periods"sv, [](auto const& locale) { return locale.day_periods; }); append_mapping(cldr.hour_cycle_regions, cldr.hour_cycles, cldr.unique_hour_cycle_lists.type_that_fits(), "s_hour_cycles"sv, [](auto const& hour_cycles) { return hour_cycles; }); append_mapping(cldr.minimum_days_regions, cldr.minimum_days, "u8"sv, "s_minimum_days"sv, [](auto minimum_days) { return minimum_days; }); append_mapping(cldr.first_day_regions, cldr.first_day, "u8"sv, "s_first_day"sv, [](auto first_day) { return to_underlying(first_day); }); append_mapping(cldr.weekend_start_regions, cldr.weekend_start, "u8"sv, "s_weekend_start"sv, [](auto weekend_start) { return to_underlying(weekend_start); }); append_mapping(cldr.weekend_end_regions, cldr.weekend_end, "u8"sv, "s_weekend_end"sv, [](auto weekend_end) { return to_underlying(weekend_end); }); generator.append("\n"); auto append_from_string = [&](StringView enum_title, StringView enum_snake, auto const& values, Vector const& aliases = {}) -> ErrorOr { HashValueMap hashes; TRY(hashes.try_ensure_capacity(values.size())); for (auto const& value : values) hashes.set(value.hash(), format_identifier(enum_title, value)); for (auto const& alias : aliases) hashes.set(alias.alias.hash(), format_identifier(enum_title, alias.alias)); generate_value_from_string(generator, "{}_from_string"sv, enum_title, enum_snake, move(hashes)); return {}; }; TRY(append_from_string("HourCycleRegion"sv, "hour_cycle_region"sv, cldr.hour_cycle_regions)); TRY(append_from_string("MinimumDaysRegion"sv, "minimum_days_region"sv, cldr.minimum_days_regions)); TRY(append_from_string("FirstDayRegion"sv, "first_day_region"sv, cldr.first_day_regions)); TRY(append_from_string("WeekendStartRegion"sv, "weekend_start_region"sv, cldr.weekend_start_regions)); TRY(append_from_string("WeekendEndRegion"sv, "weekend_end_region"sv, cldr.weekend_end_regions)); generator.append(R"~~~( static Optional keyword_to_calendar(KeywordCalendar keyword) { switch (keyword) {)~~~"); for (auto const& calendar : cldr.calendars) { generator.set("name"sv, format_identifier({}, calendar)); generator.append(R"~~~( case KeywordCalendar::@name@: return Calendar::@name@;)~~~"); } generator.append(R"~~~( default: return {}; } } Vector get_regional_hour_cycles(StringView region) { auto region_value = hour_cycle_region_from_string(region); if (!region_value.has_value()) return {}; auto region_index = to_underlying(*region_value); auto regional_hour_cycles_index = s_hour_cycles.at(region_index); auto const& regional_hour_cycles = s_hour_cycle_lists.at(regional_hour_cycles_index); Vector hour_cycles; hour_cycles.ensure_capacity(regional_hour_cycles.size()); for (auto hour_cycle : regional_hour_cycles) hour_cycles.unchecked_append(static_cast(hour_cycle)); return hour_cycles; } )~~~"); auto append_regional_lookup = [&](StringView return_type, StringView lookup_type) { generator.set("return_type", return_type); generator.set("lookup_type", lookup_type); generator.append(R"~~~( Optional<@return_type@> get_regional_@lookup_type@(StringView region) { auto region_value = @lookup_type@_region_from_string(region); if (!region_value.has_value()) return {}; auto region_index = to_underlying(*region_value); auto @lookup_type@ = s_@lookup_type@.at(region_index); return static_cast<@return_type@>(@lookup_type@); } )~~~"); }; append_regional_lookup("u8"sv, "minimum_days"sv); append_regional_lookup("Weekday"sv, "first_day"sv); append_regional_lookup("Weekday"sv, "weekend_start"sv); append_regional_lookup("Weekday"sv, "weekend_end"sv); generator.append(R"~~~( static CalendarData const* find_calendar_data(StringView locale, StringView calendar) { auto locale_value = locale_from_string(locale); if (!locale_value.has_value()) return nullptr; auto locale_index = to_underlying(*locale_value) - 1; // Subtract 1 because 0 == Locale::None. auto const& calendar_indices = s_locale_calendars.at(locale_index); auto lookup_calendar = [&](auto calendar_name) -> CalendarData const* { auto calendar_keyword = keyword_ca_from_string(calendar_name); if (!calendar_keyword.has_value()) return nullptr; auto calendar_value = keyword_to_calendar(*calendar_keyword); if (!calendar_value.has_value()) return nullptr; size_t calendar_index = to_underlying(*calendar_value); calendar_index = calendar_indices[calendar_index]; return &s_calendars[calendar_index]; }; if (auto const* calendar_data = lookup_calendar(calendar)) return calendar_data; auto default_calendar = get_preferred_keyword_value_for_locale(locale, "ca"sv); if (!default_calendar.has_value()) return nullptr; return lookup_calendar(*default_calendar); } Optional get_calendar_date_format(StringView locale, StringView calendar) { if (auto const* data = find_calendar_data(locale, calendar); data != nullptr) { auto const& formats = s_calendar_formats.at(data->date_formats); return formats.to_unicode_calendar_format(); } return {}; } Optional get_calendar_time_format(StringView locale, StringView calendar) { if (auto const* data = find_calendar_data(locale, calendar); data != nullptr) { auto const& formats = s_calendar_formats.at(data->time_formats); return formats.to_unicode_calendar_format(); } return {}; } Optional get_calendar_date_time_format(StringView locale, StringView calendar) { if (auto const* data = find_calendar_data(locale, calendar); data != nullptr) { auto const& formats = s_calendar_formats.at(data->date_time_formats); return formats.to_unicode_calendar_format(); } return {}; } Vector get_calendar_available_formats(StringView locale, StringView calendar) { Vector result {}; if (auto const* data = find_calendar_data(locale, calendar); data != nullptr) { auto const& available_formats = s_calendar_pattern_lists.at(data->available_formats); result.ensure_capacity(available_formats.size()); for (auto const& format : available_formats) result.unchecked_append(s_calendar_patterns[format].to_unicode_calendar_pattern()); } return result; } Optional get_calendar_default_range_format(StringView locale, StringView calendar) { if (auto const* data = find_calendar_data(locale, calendar); data != nullptr) { auto const& pattern = s_calendar_range_patterns[data->default_range_format]; return pattern.to_unicode_calendar_range_pattern(); } return {}; } Vector get_calendar_range_formats(StringView locale, StringView calendar, StringView skeleton) { Vector result {}; if (auto const* data = find_calendar_data(locale, calendar); data != nullptr) { auto const& range_formats = s_calendar_range_pattern_lists.at(data->range_formats); for (auto format : range_formats) { auto const& pattern = s_calendar_range_patterns[format]; if (skeleton == decode_string(pattern.skeleton)) result.append(pattern.to_unicode_calendar_range_pattern()); } } return result; } Vector get_calendar_range12_formats(StringView locale, StringView calendar, StringView skeleton) { Vector result {}; if (auto const* data = find_calendar_data(locale, calendar); data != nullptr) { auto const& range12_formats = s_calendar_range_pattern_lists.at(data->range12_formats); for (auto format : range12_formats) { auto const& pattern = s_calendar_range_patterns[format]; if (skeleton == decode_string(pattern.skeleton)) result.append(pattern.to_unicode_calendar_range_pattern()); } } return result; } static ReadonlySpan<@string_index_type@> find_calendar_symbols(StringView locale, StringView calendar, CalendarSymbol symbol, CalendarPatternStyle style) { if (auto const* data = find_calendar_data(locale, calendar); data != nullptr) { auto const& symbols_list = s_calendar_symbol_lists[data->symbols]; auto symbol_index = to_underlying(symbol); auto calendar_symbols_index = symbols_list.at(symbol_index); auto const& symbols = s_calendar_symbols.at(calendar_symbols_index); @symbol_list_index_type@ symbol_list_index = 0; switch (style) { case CalendarPatternStyle::Narrow: symbol_list_index = symbols.narrow_symbols; break; case CalendarPatternStyle::Short: symbol_list_index = symbols.short_symbols; break; case CalendarPatternStyle::Long: symbol_list_index = symbols.long_symbols; break; default: VERIFY_NOT_REACHED(); } return s_symbol_lists.at(symbol_list_index); } return {}; } Optional get_calendar_era_symbol(StringView locale, StringView calendar, CalendarPatternStyle style, Era value) { auto symbols = find_calendar_symbols(locale, calendar, CalendarSymbol::Era, style); if (auto value_index = to_underlying(value); value_index < symbols.size()) { if (auto symbol_index = symbols.at(value_index); symbol_index != 0) return decode_string(symbol_index); } return {}; } Optional get_calendar_month_symbol(StringView locale, StringView calendar, CalendarPatternStyle style, Month value) { auto symbols = find_calendar_symbols(locale, calendar, CalendarSymbol::Month, style); if (auto value_index = to_underlying(value); value_index < symbols.size()) { if (auto symbol_index = symbols.at(value_index); symbol_index != 0) return decode_string(symbol_index); } return {}; } Optional get_calendar_weekday_symbol(StringView locale, StringView calendar, CalendarPatternStyle style, Weekday value) { auto symbols = find_calendar_symbols(locale, calendar, CalendarSymbol::Weekday, style); if (auto value_index = to_underlying(value); value_index < symbols.size()) { if (auto symbol_index = symbols.at(value_index); symbol_index != 0) return decode_string(symbol_index); } return {}; } Optional get_calendar_day_period_symbol(StringView locale, StringView calendar, CalendarPatternStyle style, DayPeriod value) { auto symbols = find_calendar_symbols(locale, calendar, CalendarSymbol::DayPeriod, style); if (auto value_index = to_underlying(value); value_index < symbols.size()) { if (auto symbol_index = symbols.at(value_index); symbol_index != 0) return decode_string(symbol_index); } return {}; } Optional get_calendar_day_period_symbol_for_hour(StringView locale, StringView calendar, CalendarPatternStyle style, u8 hour) { auto locale_value = locale_from_string(locale); if (!locale_value.has_value()) return {}; auto locale_index = to_underlying(*locale_value) - 1; // Subtract 1 because 0 == Locale::None. auto day_periods_index = s_locale_day_periods[locale_index]; auto day_periods = s_day_period_lists[day_periods_index]; for (auto day_period_index : day_periods) { auto day_period = s_day_periods[day_period_index]; bool hour_falls_within_day_period = false; if (day_period.begin > day_period.end) { if (hour >= day_period.begin) hour_falls_within_day_period = true; else if (hour <= day_period.end) hour_falls_within_day_period = true; } else if ((day_period.begin <= hour) && (hour < day_period.end)) { hour_falls_within_day_period = true; } if (hour_falls_within_day_period) { auto period = static_cast(day_period.day_period); return get_calendar_day_period_symbol(locale, calendar, style, period); } } // Fallback to fixed periods if the locale does not have flexible day periods. // TR-35 states that the meaning of AM and PM does not change with locale. if (hour < 12) return get_calendar_day_period_symbol(locale, calendar, style, DayPeriod::AM); return get_calendar_day_period_symbol(locale, calendar, style, DayPeriod::PM); } Optional get_time_zone_format(StringView locale) { auto locale_value = locale_from_string(locale); if (!locale_value.has_value()) return {}; auto locale_index = to_underlying(*locale_value) - 1; // Subtract 1 because 0 == Locale::None. auto time_zone_format_index = s_locale_time_zone_formats.at(locale_index); auto const& time_zone_format = s_time_zone_formats.at(time_zone_format_index); return time_zone_format.to_time_zone_format(); } static TimeZoneNames const* find_time_zone_names(StringView locale, StringView time_zone) { auto locale_value = locale_from_string(locale); if (!locale_value.has_value()) return nullptr; auto time_zone_value = ::TimeZone::time_zone_from_string(time_zone); if (!time_zone_value.has_value()) return nullptr; auto locale_index = to_underlying(*locale_value) - 1; // Subtract 1 because 0 == Locale::None. size_t time_zone_index = to_underlying(*time_zone_value); auto time_zone_list_index = s_locale_time_zones.at(locale_index); auto const& time_zone_list = s_time_zone_lists.at(time_zone_list_index); if (time_zone_list.size() <= time_zone_index) return nullptr; time_zone_index = time_zone_list.at(time_zone_index); return &s_time_zones[time_zone_index]; } Optional get_time_zone_name(StringView locale, StringView time_zone, CalendarPatternStyle style, TimeZone::InDST in_dst) { if (auto const* data = find_time_zone_names(locale, time_zone); data != nullptr) { size_t name_index = 0; switch (style) { case CalendarPatternStyle::Short: name_index = (in_dst == TimeZone::InDST::No) ? data->short_standard_name : data->short_daylight_name; break; case CalendarPatternStyle::Long: name_index = (in_dst == TimeZone::InDST::No) ? data->long_standard_name : data->long_daylight_name; break; case CalendarPatternStyle::ShortGeneric: name_index = data->short_generic_name; break; case CalendarPatternStyle::LongGeneric: name_index = data->long_generic_name; break; default: VERIFY_NOT_REACHED(); } if (name_index != 0) return decode_string(name_index); } return {}; } } )~~~"); TRY(file.write_until_depleted(generator.as_string_view().bytes())); return {}; } ErrorOr serenity_main(Main::Arguments arguments) { StringView generated_header_path; StringView generated_implementation_path; StringView core_path; StringView dates_path; Core::ArgsParser args_parser; args_parser.add_option(generated_header_path, "Path to the Unicode locale header file to generate", "generated-header-path", 'h', "generated-header-path"); args_parser.add_option(generated_implementation_path, "Path to the Unicode locale implementation file to generate", "generated-implementation-path", 'c', "generated-implementation-path"); args_parser.add_option(core_path, "Path to cldr-core directory", "core-path", 'r', "core-path"); args_parser.add_option(dates_path, "Path to cldr-dates directory", "dates-path", 'd', "dates-path"); args_parser.parse(arguments); auto generated_header_file = TRY(open_file(generated_header_path, Core::File::OpenMode::Write)); auto generated_implementation_file = TRY(open_file(generated_implementation_path, Core::File::OpenMode::Write)); CLDR cldr; TRY(parse_all_locales(core_path, dates_path, cldr)); TRY(generate_unicode_locale_header(*generated_header_file, cldr)); TRY(generate_unicode_locale_implementation(*generated_implementation_file, cldr)); return 0; }