/* * Copyright (c) 2021, Tim Flynn * * SPDX-License-Identifier: BSD-2-Clause */ #include "GeneratorUtil.h" #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include #include using StringIndexType = u16; constexpr auto s_string_index_type = "u16"sv; using NumberFormatIndexType = u16; constexpr auto s_number_format_index_type = "u16"sv; using NumberFormatListIndexType = u16; constexpr auto s_number_format_list_index_type = "u16"sv; using NumericSymbolListIndexType = u8; constexpr auto s_numeric_symbol_list_index_type = "u8"sv; using NumberSystemIndexType = u8; constexpr auto s_number_system_index_type = "u8"sv; using UnitIndexType = u16; constexpr auto s_unit_index_type = "u16"sv; enum class NumberFormatType { Standard, Compact, }; struct NumberFormat : public Unicode::NumberFormat { using Base = Unicode::NumberFormat; static Base::Plurality plurality_from_string(StringView plurality) { if (plurality == "other"sv) return Base::Plurality::Other; if (plurality == "1"sv) return Base::Plurality::Single; if (plurality == "zero"sv) return Base::Plurality::Zero; if (plurality == "one"sv) return Base::Plurality::One; if (plurality == "two"sv) return Base::Plurality::Two; if (plurality == "few"sv) return Base::Plurality::Few; if (plurality == "many"sv) return Base::Plurality::Many; VERIFY_NOT_REACHED(); } unsigned hash() const { auto hash = pair_int_hash(magnitude, exponent); hash = pair_int_hash(hash, static_cast(plurality)); hash = pair_int_hash(hash, zero_format_index); hash = pair_int_hash(hash, positive_format_index); hash = pair_int_hash(hash, negative_format_index); for (auto index : identifier_indices) hash = pair_int_hash(hash, index); return hash; } bool operator==(NumberFormat const& other) const { return (magnitude == other.magnitude) && (exponent == other.exponent) && (plurality == other.plurality) && (zero_format_index == other.zero_format_index) && (positive_format_index == other.positive_format_index) && (negative_format_index == other.negative_format_index) && (identifier_indices == other.identifier_indices); } StringIndexType zero_format_index { 0 }; StringIndexType positive_format_index { 0 }; StringIndexType negative_format_index { 0 }; Vector identifier_indices {}; }; template<> struct AK::Formatter : Formatter { ErrorOr format(FormatBuilder& builder, NumberFormat const& format) { StringBuilder identifier_indices; identifier_indices.join(", "sv, format.identifier_indices); return Formatter::format(builder, "{{ {}, {}, {}, {}, {}, {}, {{ {} }} }}", format.magnitude, format.exponent, static_cast(format.plurality), format.zero_format_index, format.positive_format_index, format.negative_format_index, identifier_indices.build()); } }; template<> struct AK::Traits : public GenericTraits { static unsigned hash(NumberFormat const& f) { return f.hash(); } }; using NumberFormatList = Vector; using NumericSymbolList = Vector; struct NumberSystem { unsigned hash() const { auto hash = pair_int_hash(system, symbols); hash = pair_int_hash(hash, primary_grouping_size); hash = pair_int_hash(hash, secondary_grouping_size); hash = pair_int_hash(hash, decimal_format); hash = pair_int_hash(hash, decimal_long_formats); hash = pair_int_hash(hash, decimal_short_formats); hash = pair_int_hash(hash, currency_format); hash = pair_int_hash(hash, accounting_format); hash = pair_int_hash(hash, currency_unit_formats); hash = pair_int_hash(hash, currency_short_formats); hash = pair_int_hash(hash, percent_format); hash = pair_int_hash(hash, scientific_format); return hash; } bool operator==(NumberSystem const& other) const { return (system == other.system) && (symbols == other.symbols) && (primary_grouping_size == other.primary_grouping_size) && (secondary_grouping_size == other.secondary_grouping_size) && (decimal_format == other.decimal_format) && (decimal_long_formats == other.decimal_long_formats) && (decimal_short_formats == other.decimal_short_formats) && (currency_format == other.currency_format) && (accounting_format == other.accounting_format) && (currency_unit_formats == other.currency_unit_formats) && (currency_short_formats == other.currency_short_formats) && (percent_format == other.percent_format) && (scientific_format == other.scientific_format); } StringIndexType system { 0 }; NumericSymbolListIndexType symbols { 0 }; u8 primary_grouping_size { 0 }; u8 secondary_grouping_size { 0 }; NumberFormatIndexType decimal_format { 0 }; NumberFormatListIndexType decimal_long_formats { 0 }; NumberFormatListIndexType decimal_short_formats { 0 }; NumberFormatIndexType currency_format { 0 }; NumberFormatIndexType accounting_format { 0 }; NumberFormatListIndexType currency_unit_formats { 0 }; NumberFormatListIndexType currency_short_formats { 0 }; NumberFormatIndexType percent_format { 0 }; NumberFormatIndexType scientific_format { 0 }; }; template<> struct AK::Formatter : Formatter { ErrorOr format(FormatBuilder& builder, NumberSystem const& system) { return Formatter::format(builder, "{{ {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {}, {} }}", system.system, system.symbols, system.primary_grouping_size, system.secondary_grouping_size, system.decimal_format, system.decimal_long_formats, system.decimal_short_formats, system.currency_format, system.accounting_format, system.currency_unit_formats, system.currency_short_formats, system.percent_format, system.scientific_format); } }; template<> struct AK::Traits : public GenericTraits { static unsigned hash(NumberSystem const& s) { return s.hash(); } }; struct Unit { unsigned hash() const { auto hash = int_hash(unit); hash = pair_int_hash(hash, long_formats); hash = pair_int_hash(hash, short_formats); hash = pair_int_hash(hash, narrow_formats); return hash; } bool operator==(Unit const& other) const { return (unit == other.unit) && (long_formats == other.long_formats) && (short_formats == other.short_formats) && (narrow_formats == other.narrow_formats); } StringIndexType unit { 0 }; NumberFormatListIndexType long_formats { 0 }; NumberFormatListIndexType short_formats { 0 }; NumberFormatListIndexType narrow_formats { 0 }; }; template<> struct AK::Formatter : Formatter { ErrorOr format(FormatBuilder& builder, Unit const& system) { return Formatter::format(builder, "{{ {}, {}, {}, {} }}", system.unit, system.long_formats, system.short_formats, system.narrow_formats); } }; template<> struct AK::Traits : public GenericTraits { static unsigned hash(Unit const& u) { return u.hash(); } }; struct Locale { HashMap number_systems; HashMap units {}; }; struct UnicodeLocaleData { UniqueStringStorage unique_strings; UniqueStorage unique_formats; UniqueStorage unique_format_lists; UniqueStorage unique_symbols; UniqueStorage unique_systems; UniqueStorage unique_units; HashMap locales; size_t max_identifier_count { 0 }; }; static String parse_identifiers(String pattern, StringView replacement, UnicodeLocaleData& locale_data, NumberFormat& format) { static Utf8View whitespace { "\u0020\u00a0\u200f"sv }; while (true) { Utf8View utf8_pattern { pattern }; Optional start_index; Optional end_index; bool inside_replacement = false; for (auto it = utf8_pattern.begin(); it != utf8_pattern.end(); ++it) { if (*it == '{') { if (start_index.has_value()) { end_index = utf8_pattern.byte_offset_of(it); break; } inside_replacement = true; } else if (*it == '}') { inside_replacement = false; } else if (!inside_replacement && !start_index.has_value() && !whitespace.contains(*it)) { start_index = utf8_pattern.byte_offset_of(it); } } if (!start_index.has_value()) return pattern; end_index = end_index.value_or(pattern.length()); utf8_pattern = utf8_pattern.substring_view(*start_index, *end_index - *start_index); utf8_pattern = utf8_pattern.trim(whitespace); auto identifier = utf8_pattern.as_string().replace("'.'"sv, "."sv); auto identifier_index = locale_data.unique_strings.ensure(move(identifier)); size_t replacement_index = 0; if (auto index = format.identifier_indices.find_first_index(identifier_index); index.has_value()) { replacement_index = *index; } else { replacement_index = format.identifier_indices.size(); format.identifier_indices.append(identifier_index); locale_data.max_identifier_count = max(locale_data.max_identifier_count, format.identifier_indices.size()); } pattern = String::formatted("{}{{{}:{}}}{}", *start_index > 0 ? pattern.substring_view(0, *start_index) : ""sv, replacement, replacement_index, pattern.substring_view(*start_index + utf8_pattern.byte_length())); } } static void parse_number_pattern(Vector patterns, UnicodeLocaleData& locale_data, NumberFormatType type, NumberFormat& format, NumberSystem* number_system_for_groupings = nullptr) { // https://unicode.org/reports/tr35/tr35-numbers.html#Number_Format_Patterns // https://cldr.unicode.org/translation/number-currency-formats/number-and-currency-patterns VERIFY((patterns.size() == 1) || (patterns.size() == 2)); auto replace_patterns = [&](String pattern) { static HashMap replacements = { { "{0}"sv, "{number}"sv }, { "{1}"sv, "{currency}"sv }, { "%"sv, "{percentSign}"sv }, { "+"sv, "{plusSign}"sv }, { "-"sv, "{minusSign}"sv }, { "ยค"sv, "{currency}"sv }, // U+00A4 Currency Sign { "E"sv, "{scientificSeparator}"sv }, }; for (auto const& replacement : replacements) pattern = pattern.replace(replacement.key, replacement.value, true); if (auto start_number_index = pattern.find_any_of("#0"sv, String::SearchDirection::Forward); start_number_index.has_value()) { auto end_number_index = *start_number_index + 1; for (; end_number_index < pattern.length(); ++end_number_index) { auto ch = pattern[end_number_index]; if ((ch != '#') && (ch != '0') && (ch != ',') && (ch != '.')) break; } if (number_system_for_groupings) { auto number_pattern = pattern.substring_view(*start_number_index, end_number_index - *start_number_index); auto group_separators = number_pattern.find_all(","sv); VERIFY((group_separators.size() == 1) || (group_separators.size() == 2)); auto decimal = number_pattern.find('.'); VERIFY(decimal.has_value()); if (group_separators.size() == 1) { number_system_for_groupings->primary_grouping_size = *decimal - group_separators[0] - 1; number_system_for_groupings->secondary_grouping_size = number_system_for_groupings->primary_grouping_size; } else { number_system_for_groupings->primary_grouping_size = *decimal - group_separators[1] - 1; number_system_for_groupings->secondary_grouping_size = group_separators[1] - group_separators[0] - 1; } } pattern = String::formatted("{}{{number}}{}", *start_number_index > 0 ? pattern.substring_view(0, *start_number_index) : ""sv, pattern.substring_view(end_number_index)); // This is specifically handled here rather than in the replacements HashMap above so // that we do not errantly replace zeroes in number patterns. if (pattern.contains(*replacements.get("E"sv))) pattern = pattern.replace("0"sv, "{scientificExponent}"sv); } if (type == NumberFormatType::Compact) return parse_identifiers(move(pattern), "compactIdentifier"sv, locale_data, format); return pattern; }; auto zero_format = replace_patterns(move(patterns[0])); format.positive_format_index = locale_data.unique_strings.ensure(String::formatted("{{plusSign}}{}", zero_format)); if (patterns.size() == 2) { auto negative_format = replace_patterns(move(patterns[1])); format.negative_format_index = locale_data.unique_strings.ensure(move(negative_format)); } else { format.negative_format_index = locale_data.unique_strings.ensure(String::formatted("{{minusSign}}{}", zero_format)); } format.zero_format_index = locale_data.unique_strings.ensure(move(zero_format)); } static void parse_number_pattern(Vector patterns, UnicodeLocaleData& locale_data, NumberFormatType type, NumberFormatIndexType& format_index, NumberSystem* number_system_for_groupings = nullptr) { NumberFormat format {}; parse_number_pattern(move(patterns), locale_data, type, format, number_system_for_groupings); format_index = locale_data.unique_formats.ensure(move(format)); } static ErrorOr parse_number_systems(String locale_numbers_path, UnicodeLocaleData& locale_data, Locale& locale) { LexicalPath numbers_path(move(locale_numbers_path)); numbers_path = numbers_path.append("numbers.json"sv); auto numbers_file = TRY(Core::File::open(numbers_path.string(), Core::OpenMode::ReadOnly)); auto numbers = TRY(JsonValue::from_string(numbers_file->read_all())); auto const& main_object = numbers.as_object().get("main"sv); auto const& locale_object = main_object.as_object().get(numbers_path.parent().basename()); auto const& locale_numbers_object = locale_object.as_object().get("numbers"sv); HashMap number_systems; auto ensure_number_system = [&](auto const& system) -> NumberSystem& { return number_systems.ensure(system, [&]() { auto system_index = locale_data.unique_strings.ensure(system); return NumberSystem { .system = system_index }; }); }; auto parse_number_format = [&](auto const& format_object) { Vector result; result.ensure_capacity(format_object.size()); format_object.for_each_member([&](auto const& key, JsonValue const& value) { auto split_key = key.split_view('-'); if (split_key.size() != 3) return; auto patterns = value.as_string().split(';'); NumberFormat format {}; if (auto type = split_key[0].template to_uint(); type.has_value()) { VERIFY(*type % 10 == 0); format.magnitude = static_cast(log10(*type)); if (patterns[0] != "0"sv) { auto number_of_zeroes_in_pattern = patterns[0].count("0"sv); VERIFY(format.magnitude >= number_of_zeroes_in_pattern); format.exponent = format.magnitude + 1 - number_of_zeroes_in_pattern; } } else { VERIFY(split_key[0] == "unitPattern"sv); } format.plurality = NumberFormat::plurality_from_string(split_key[2]); parse_number_pattern(move(patterns), locale_data, NumberFormatType::Compact, format); auto format_index = locale_data.unique_formats.ensure(move(format)); result.append(format_index); }); return locale_data.unique_format_lists.ensure(move(result)); }; auto numeric_symbol_from_string = [&](StringView numeric_symbol) -> Optional { if (numeric_symbol == "decimal"sv) return Unicode::NumericSymbol::Decimal; if (numeric_symbol == "exponential"sv) return Unicode::NumericSymbol::Exponential; if (numeric_symbol == "group"sv) return Unicode::NumericSymbol::Group; if (numeric_symbol == "infinity"sv) return Unicode::NumericSymbol::Infinity; if (numeric_symbol == "minusSign"sv) return Unicode::NumericSymbol::MinusSign; if (numeric_symbol == "nan"sv) return Unicode::NumericSymbol::NaN; if (numeric_symbol == "percentSign"sv) return Unicode::NumericSymbol::PercentSign; if (numeric_symbol == "plusSign"sv) return Unicode::NumericSymbol::PlusSign; return {}; }; locale_numbers_object.as_object().for_each_member([&](auto const& key, JsonValue const& value) { constexpr auto symbols_prefix = "symbols-numberSystem-"sv; constexpr auto decimal_formats_prefix = "decimalFormats-numberSystem-"sv; constexpr auto currency_formats_prefix = "currencyFormats-numberSystem-"sv; constexpr auto percent_formats_prefix = "percentFormats-numberSystem-"sv; constexpr auto scientific_formats_prefix = "scientificFormats-numberSystem-"sv; if (key.starts_with(symbols_prefix)) { auto system = key.substring(symbols_prefix.length()); auto& number_system = ensure_number_system(system); NumericSymbolList symbols; value.as_object().for_each_member([&](auto const& symbol, JsonValue const& localization) { auto numeric_symbol = numeric_symbol_from_string(symbol); if (!numeric_symbol.has_value()) return; if (to_underlying(*numeric_symbol) >= symbols.size()) symbols.resize(to_underlying(*numeric_symbol) + 1); auto symbol_index = locale_data.unique_strings.ensure(localization.as_string()); symbols[to_underlying(*numeric_symbol)] = symbol_index; }); number_system.symbols = locale_data.unique_symbols.ensure(move(symbols)); } else if (key.starts_with(decimal_formats_prefix)) { auto system = key.substring(decimal_formats_prefix.length()); auto& number_system = ensure_number_system(system); auto format_object = value.as_object().get("standard"sv); parse_number_pattern(format_object.as_string().split(';'), locale_data, NumberFormatType::Standard, number_system.decimal_format, &number_system); auto const& long_format = value.as_object().get("long"sv).as_object().get("decimalFormat"sv); number_system.decimal_long_formats = parse_number_format(long_format.as_object()); auto const& short_format = value.as_object().get("short"sv).as_object().get("decimalFormat"sv); number_system.decimal_short_formats = parse_number_format(short_format.as_object()); } else if (key.starts_with(currency_formats_prefix)) { auto system = key.substring(currency_formats_prefix.length()); auto& number_system = ensure_number_system(system); auto format_object = value.as_object().get("standard"sv); parse_number_pattern(format_object.as_string().split(';'), locale_data, NumberFormatType::Standard, number_system.currency_format); format_object = value.as_object().get("accounting"sv); parse_number_pattern(format_object.as_string().split(';'), locale_data, NumberFormatType::Standard, number_system.accounting_format); number_system.currency_unit_formats = parse_number_format(value.as_object()); if (value.as_object().has("short"sv)) { auto const& short_format = value.as_object().get("short"sv).as_object().get("standard"sv); number_system.currency_short_formats = parse_number_format(short_format.as_object()); } } else if (key.starts_with(percent_formats_prefix)) { auto system = key.substring(percent_formats_prefix.length()); auto& number_system = ensure_number_system(system); auto format_object = value.as_object().get("standard"sv); parse_number_pattern(format_object.as_string().split(';'), locale_data, NumberFormatType::Standard, number_system.percent_format); } else if (key.starts_with(scientific_formats_prefix)) { auto system = key.substring(scientific_formats_prefix.length()); auto& number_system = ensure_number_system(system); auto format_object = value.as_object().get("standard"sv); parse_number_pattern(format_object.as_string().split(';'), locale_data, NumberFormatType::Standard, number_system.scientific_format); } }); for (auto& number_system : number_systems) { auto system_index = locale_data.unique_systems.ensure(move(number_system.value)); locale.number_systems.set(number_system.key, system_index); } return {}; } static ErrorOr parse_units(String locale_units_path, UnicodeLocaleData& locale_data, Locale& locale) { LexicalPath units_path(move(locale_units_path)); units_path = units_path.append("units.json"sv); auto units_file = TRY(Core::File::open(units_path.string(), Core::OpenMode::ReadOnly)); auto locale_units = TRY(JsonValue::from_string(units_file->read_all())); auto const& main_object = locale_units.as_object().get("main"sv); auto const& locale_object = main_object.as_object().get(units_path.parent().basename()); auto const& locale_units_object = locale_object.as_object().get("units"sv); auto const& long_object = locale_units_object.as_object().get("long"sv); auto const& short_object = locale_units_object.as_object().get("short"sv); auto const& narrow_object = locale_units_object.as_object().get("narrow"sv); HashMap units; auto ensure_unit = [&](auto const& unit) -> Unit& { return units.ensure(unit, [&]() { auto unit_index = locale_data.unique_strings.ensure(unit); return Unit { .unit = unit_index }; }); }; auto is_sanctioned_unit = [](StringView unit_name) { // This is a copy of the units sanctioned for use within ECMA-402. LibUnicode generally tries to // avoid being directly dependent on ECMA-402, but this rather significantly reduces the amount // of data generated here, and ECMA-402 is currently the only consumer of this data. // https://tc39.es/ecma402/#table-sanctioned-simple-unit-identifiers 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_name) != sanctioned_units.end(); }; auto parse_units_object = [&](auto const& units_object, Unicode::Style style) { constexpr auto unit_pattern_prefix = "unitPattern-count-"sv; constexpr auto combined_unit_separator = "-per-"sv; units_object.for_each_member([&](auto const& key, JsonValue const& value) { auto end_of_category = key.find('-'); if (!end_of_category.has_value()) return; auto unit_name = key.substring(*end_of_category + 1); if (!is_sanctioned_unit(unit_name)) { auto indices = unit_name.find_all(combined_unit_separator); if (indices.size() != 1) return; auto numerator = unit_name.substring_view(0, indices[0]); auto denominator = unit_name.substring_view(indices[0] + combined_unit_separator.length()); if (!is_sanctioned_unit(numerator) || !is_sanctioned_unit(denominator)) return; } auto& unit = ensure_unit(unit_name); NumberFormatList formats; value.as_object().for_each_member([&](auto const& unit_key, JsonValue const& pattern_value) { if (!unit_key.starts_with(unit_pattern_prefix)) return; NumberFormat format {}; auto plurality = unit_key.substring_view(unit_pattern_prefix.length()); format.plurality = NumberFormat::plurality_from_string(plurality); auto zero_format = pattern_value.as_string().replace("{0}"sv, "{number}"sv); zero_format = parse_identifiers(zero_format, "unitIdentifier"sv, locale_data, format); format.positive_format_index = locale_data.unique_strings.ensure(zero_format.replace("{number}"sv, "{plusSign}{number}"sv)); format.negative_format_index = locale_data.unique_strings.ensure(zero_format.replace("{number}"sv, "{minusSign}{number}"sv)); format.zero_format_index = locale_data.unique_strings.ensure(move(zero_format)); formats.append(locale_data.unique_formats.ensure(move(format))); }); auto number_format_list_index = locale_data.unique_format_lists.ensure(move(formats)); switch (style) { case Unicode::Style::Long: unit.long_formats = number_format_list_index; break; case Unicode::Style::Short: unit.short_formats = number_format_list_index; break; case Unicode::Style::Narrow: unit.narrow_formats = number_format_list_index; break; default: VERIFY_NOT_REACHED(); } }); }; parse_units_object(long_object.as_object(), Unicode::Style::Long); parse_units_object(short_object.as_object(), Unicode::Style::Short); parse_units_object(narrow_object.as_object(), Unicode::Style::Narrow); for (auto& unit : units) { auto unit_index = locale_data.unique_units.ensure(move(unit.value)); locale.units.set(unit.key, unit_index); } return {}; } static ErrorOr parse_all_locales(String numbers_path, String units_path, UnicodeLocaleData& locale_data) { auto numbers_iterator = TRY(path_to_dir_iterator(move(numbers_path))); auto units_iterator = TRY(path_to_dir_iterator(move(units_path))); auto remove_variants_from_path = [&](String path) -> ErrorOr { auto parsed_locale = TRY(CanonicalLanguageID::parse(locale_data.unique_strings, LexicalPath::basename(path))); StringBuilder builder; builder.append(locale_data.unique_strings.get(parsed_locale.language)); if (auto script = locale_data.unique_strings.get(parsed_locale.script); !script.is_empty()) builder.appendff("-{}", script); if (auto region = locale_data.unique_strings.get(parsed_locale.region); !region.is_empty()) builder.appendff("-{}", region); return builder.build(); }; while (numbers_iterator.has_next()) { auto numbers_path = TRY(next_path_from_dir_iterator(numbers_iterator)); auto language = TRY(remove_variants_from_path(numbers_path)); auto& locale = locale_data.locales.ensure(language); TRY(parse_number_systems(numbers_path, locale_data, locale)); } while (units_iterator.has_next()) { auto units_path = TRY(next_path_from_dir_iterator(units_iterator)); auto language = TRY(remove_variants_from_path(units_path)); auto& locale = locale_data.locales.ensure(language); TRY(parse_units(units_path, locale_data, locale)); } return {}; } static void generate_unicode_locale_header(Core::File& file, UnicodeLocaleData&) { StringBuilder builder; SourceGenerator generator { builder }; // FIXME: Update unicode_data.cmake to not require a header. generator.append(R"~~~( #pragma once )~~~"); VERIFY(file.write(generator.as_string_view())); } static void generate_unicode_locale_implementation(Core::File& file, UnicodeLocaleData& locale_data) { StringBuilder builder; SourceGenerator generator { builder }; generator.set("string_index_type"sv, s_string_index_type); generator.set("number_format_index_type"sv, s_number_format_index_type); generator.set("number_format_list_index_type"sv, s_number_format_list_index_type); generator.set("numeric_symbol_list_index_type"sv, s_numeric_symbol_list_index_type); generator.set("identifier_count", String::number(locale_data.max_identifier_count)); generator.append(R"~~~( #include #include #include #include #include #include #include #include #include namespace Unicode::Detail { )~~~"); locale_data.unique_strings.generate(generator); generator.append(R"~~~( struct NumberFormat { Unicode::NumberFormat to_unicode_number_format() const { Unicode::NumberFormat number_format {}; number_format.magnitude = magnitude; number_format.exponent = exponent; number_format.plurality = static_cast(plurality); number_format.zero_format = s_string_list[zero_format]; number_format.positive_format = s_string_list[positive_format]; number_format.negative_format = s_string_list[negative_format]; number_format.identifiers.ensure_capacity(identifiers.size()); for (@string_index_type@ identifier : identifiers) number_format.identifiers.append(s_string_list[identifier]); return number_format; } u8 magnitude { 0 }; u8 exponent { 0 }; u8 plurality { 0 }; @string_index_type@ zero_format { 0 }; @string_index_type@ positive_format { 0 }; @string_index_type@ negative_format { 0 }; Array<@string_index_type@, @identifier_count@> identifiers {}; }; struct NumberSystem { @string_index_type@ system { 0 }; @numeric_symbol_list_index_type@ symbols { 0 }; u8 primary_grouping_size { 0 }; u8 secondary_grouping_size { 0 }; @number_format_index_type@ decimal_format { 0 }; @number_format_list_index_type@ decimal_long_formats { 0 }; @number_format_list_index_type@ decimal_short_formats { 0 }; @number_format_index_type@ currency_format { 0 }; @number_format_index_type@ accounting_format { 0 }; @number_format_list_index_type@ currency_unit_formats { 0 }; @number_format_list_index_type@ currency_short_formats { 0 }; @number_format_index_type@ percent_format { 0 }; @number_format_index_type@ scientific_format { 0 }; }; struct Unit { @string_index_type@ unit { 0 }; @number_format_list_index_type@ long_formats { 0 }; @number_format_list_index_type@ short_formats { 0 }; @number_format_list_index_type@ narrow_formats { 0 }; }; )~~~"); locale_data.unique_formats.generate(generator, "NumberFormat"sv, "s_number_formats"sv, 10); locale_data.unique_format_lists.generate(generator, s_number_format_index_type, "s_number_format_lists"sv); locale_data.unique_symbols.generate(generator, s_string_index_type, "s_numeric_symbol_lists"sv); locale_data.unique_systems.generate(generator, "NumberSystem"sv, "s_number_systems"sv, 10); locale_data.unique_units.generate(generator, "Unit"sv, "s_units"sv, 10); auto append_map = [&](String name, auto type, auto const& map) { generator.set("name", name); generator.set("type", type); generator.set("size", String::number(map.size())); generator.append(R"~~~( static constexpr Array<@type@, @size@> @name@ { {)~~~"); bool first = true; for (auto const& item : map) { generator.append(first ? " " : ", "); generator.append(String::number(item.value)); first = false; } generator.append(" } };"); }; generate_mapping(generator, locale_data.locales, s_number_system_index_type, "s_locale_number_systems"sv, "s_number_systems_{}", [&](auto const& name, auto const& value) { append_map(name, s_number_system_index_type, value.number_systems); }); generate_mapping(generator, locale_data.locales, s_unit_index_type, "s_locale_units"sv, "s_units_{}", [&](auto const& name, auto const& value) { append_map(name, s_unit_index_type, value.units); }); generator.append(R"~~~( static NumberSystem const* find_number_system(StringView locale, StringView system) { 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& number_systems = s_locale_number_systems.at(locale_index); for (auto system_index : number_systems) { auto const& number_system = s_number_systems.at(system_index); if (system == s_string_list[number_system.system]) return &number_system; }; return nullptr; } Optional get_number_system_symbol(StringView locale, StringView system, Unicode::NumericSymbol symbol) asm("unicode_get_number_system_symbol"); Optional get_number_system_symbol(StringView locale, StringView system, Unicode::NumericSymbol symbol) { if (auto const* number_system = find_number_system(locale, system); number_system != nullptr) { auto symbols = s_numeric_symbol_lists.at(number_system->symbols); auto symbol_index = to_underlying(symbol); if (symbol_index >= symbols.size()) return {}; return s_string_list[symbols[symbol_index]]; } return {}; } Optional get_number_system_groupings(StringView locale, StringView system) asm("unicode_get_number_system_groupings"); Optional get_number_system_groupings(StringView locale, StringView system) { if (auto const* number_system = find_number_system(locale, system); number_system != nullptr) return NumberGroupings { number_system->primary_grouping_size, number_system->secondary_grouping_size }; return {}; } Optional get_standard_number_system_format(StringView locale, StringView system, StandardNumberFormatType type) asm("unicode_get_standard_number_system_format"); Optional get_standard_number_system_format(StringView locale, StringView system, StandardNumberFormatType type) { if (auto const* number_system = find_number_system(locale, system); number_system != nullptr) { @number_format_index_type@ format_index = 0; switch (type) { case StandardNumberFormatType::Decimal: format_index = number_system->decimal_format; break; case StandardNumberFormatType::Currency: format_index = number_system->currency_format; break; case StandardNumberFormatType::Accounting: format_index = number_system->accounting_format; break; case StandardNumberFormatType::Percent: format_index = number_system->percent_format; break; case StandardNumberFormatType::Scientific: format_index = number_system->scientific_format; break; } return s_number_formats[format_index].to_unicode_number_format(); } return {}; } Vector get_compact_number_system_formats(StringView locale, StringView system, CompactNumberFormatType type) asm("unicode_get_compact_number_system_formats"); Vector get_compact_number_system_formats(StringView locale, StringView system, CompactNumberFormatType type) { Vector formats; if (auto const* number_system = find_number_system(locale, system); number_system != nullptr) { @number_format_list_index_type@ number_format_list_index { 0 }; switch (type) { case CompactNumberFormatType::DecimalLong: number_format_list_index = number_system->decimal_long_formats; break; case CompactNumberFormatType::DecimalShort: number_format_list_index = number_system->decimal_short_formats; break; case CompactNumberFormatType::CurrencyUnit: number_format_list_index = number_system->currency_unit_formats; break; case CompactNumberFormatType::CurrencyShort: number_format_list_index = number_system->currency_short_formats; break; } auto number_formats = s_number_format_lists.at(number_format_list_index); formats.ensure_capacity(number_formats.size()); for (auto number_format : number_formats) formats.append(s_number_formats[number_format].to_unicode_number_format()); } return formats; } static Unit const* find_units(StringView locale, StringView unit) { 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& locale_units = s_locale_units.at(locale_index); for (auto unit_index : locale_units) { auto const& units = s_units.at(unit_index); if (unit == s_string_list[units.unit]) return &units; }; return nullptr; } Vector get_unit_formats(StringView locale, StringView unit, Style style) asm("unicode_get_unit_formats"); Vector get_unit_formats(StringView locale, StringView unit, Style style) { Vector formats; if (auto const* units = find_units(locale, unit); units != nullptr) { @number_format_list_index_type@ number_format_list_index { 0 }; switch (style) { case Style::Long: number_format_list_index = units->long_formats; break; case Style::Short: number_format_list_index = units->short_formats; break; case Style::Narrow: number_format_list_index = units->narrow_formats; break; default: VERIFY_NOT_REACHED(); } auto number_formats = s_number_format_lists.at(number_format_list_index); formats.ensure_capacity(number_formats.size()); for (auto number_format : number_formats) formats.append(s_number_formats[number_format].to_unicode_number_format()); } return formats; } } )~~~"); VERIFY(file.write(generator.as_string_view())); } ErrorOr serenity_main(Main::Arguments arguments) { StringView generated_header_path = nullptr; StringView generated_implementation_path = nullptr; StringView numbers_path = nullptr; StringView units_path = nullptr; 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(numbers_path, "Path to cldr-numbers directory", "numbers-path", 'n', "numbers-path"); args_parser.add_option(units_path, "Path to cldr-units directory", "units-path", 'u', "units-path"); args_parser.parse(arguments); auto open_file = [&](StringView path) -> ErrorOr> { if (path.is_empty()) { args_parser.print_usage(stderr, arguments.argv[0]); return Error::from_string_literal("Must provide all command line options"sv); } return Core::File::open(path, Core::OpenMode::ReadWrite); }; auto generated_header_file = TRY(open_file(generated_header_path)); auto generated_implementation_file = TRY(open_file(generated_implementation_path)); UnicodeLocaleData locale_data; TRY(parse_all_locales(numbers_path, units_path, locale_data)); generate_unicode_locale_header(generated_header_file, locale_data); generate_unicode_locale_implementation(generated_implementation_file, locale_data); return 0; }