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LibUnicode: Parse and generate relative-time format patterns

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Relative-time format patterns are of one of two forms:

    * Tensed - refer to the past or the future, e.g. "N years ago" or
      "in N years".
    * Numbered - refer to a specific numeric value, e.g. "in 1 year"
      becomes "next year" and "in 0 years" becomes "this year".

In ECMA-402, tensed and numbered refer to the numeric formatting options
of "always" and "auto", respectively.
This commit is contained in:
Timothy Flynn 2022-01-26 10:49:58 -05:00 committed by Linus Groh
parent 27eda77c97
commit 789f093b2e
4 changed files with 295 additions and 1 deletions
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189
Meta/Lagom/Tools/CodeGenerators/LibUnicode/GenerateUnicodeRelativeTimeFormat.cpp
View file

@ -17,18 +17,133 @@
#include <LibCore/ArgsParser.h>
#include <LibCore/DirIterator.h>
#include <LibCore/File.h>
#include <LibUnicode/Locale.h>
#include <LibUnicode/RelativeTimeFormat.h>
using StringIndexType = u16;
constexpr auto s_string_index_type = "u16"sv;
using RelativeTimeFormatIndexType = u16;
constexpr auto s_relative_time_format_index_type = "u16"sv;
struct RelativeTimeFormat {
unsigned hash() const
{
auto hash = time_unit.hash();
hash = pair_int_hash(hash, style.hash());
hash = pair_int_hash(hash, plurality.hash());
hash = pair_int_hash(hash, tense_or_number);
hash = pair_int_hash(hash, pattern);
return hash;
}
bool operator==(RelativeTimeFormat const& other) const
{
return (time_unit == other.time_unit)
&& (plurality == other.plurality)
&& (style == other.style)
&& (tense_or_number == other.tense_or_number)
&& (pattern == other.pattern);
}
String time_unit;
String style;
String plurality;
StringIndexType tense_or_number { 0 };
StringIndexType pattern { 0 };
};
template<>
struct AK::Formatter<RelativeTimeFormat> : Formatter<FormatString> {
ErrorOr<void> format(FormatBuilder& builder, RelativeTimeFormat const& format)
{
return Formatter<FormatString>::format(builder,
"{{ TimeUnit::{}, Style::{}, RelativeTimeFormat::Plurality::{}, {}, {} }}",
format.time_unit,
format.style,
format.plurality,
format.tense_or_number,
format.pattern);
}
};
template<>
struct AK::Traits<RelativeTimeFormat> : public GenericTraits<RelativeTimeFormat> {
static unsigned hash(RelativeTimeFormat const& format) { return format.hash(); }
};
struct Locale {
Vector<RelativeTimeFormatIndexType> time_units;
};
struct UnicodeLocaleData {
UniqueStringStorage<StringIndexType> unique_strings;
UniqueStorage<RelativeTimeFormat, RelativeTimeFormatIndexType> unique_formats;
HashMap<String, Locale> locales;
};
static ErrorOr<void> parse_date_fields(String locale_dates_path, UnicodeLocaleData& locale_data, Locale& locale)
{
LexicalPath date_fields_path(move(locale_dates_path));
date_fields_path = date_fields_path.append("dateFields.json"sv);
auto date_fields_file = TRY(Core::File::open(date_fields_path.string(), Core::OpenMode::ReadOnly));
auto date_fields = TRY(JsonValue::from_string(date_fields_file->read_all()));
auto const& main_object = date_fields.as_object().get("main"sv);
auto const& locale_object = main_object.as_object().get(date_fields_path.parent().basename());
auto const& dates_object = locale_object.as_object().get("dates"sv);
auto const& fields_object = dates_object.as_object().get("fields"sv);
auto is_sanctioned_unit = [](auto unit) {
// This is a copy of the time units sanctioned for use within ECMA-402.
// https://tc39.es/ecma402/#sec-singularrelativetimeunit
return unit.is_one_of("second"sv, "minute"sv, "hour"sv, "day"sv, "week"sv, "month"sv, "quarter"sv, "year"sv);
};
auto parse_pattern = [&](auto unit, auto style, auto plurality, auto tense_or_number, auto const& pattern) {
RelativeTimeFormat format {};
format.time_unit = unit.to_titlecase_string();
format.style = style.to_titlecase_string();
format.plurality = plurality.to_titlecase_string();
format.tense_or_number = locale_data.unique_strings.ensure(tense_or_number);
format.pattern = locale_data.unique_strings.ensure(pattern.as_string());
locale.time_units.append(locale_data.unique_formats.ensure(move(format)));
};
fields_object.as_object().for_each_member([&](auto const& unit_and_style, auto const& patterns) {
auto segments = unit_and_style.split_view('-');
auto unit = segments[0];
auto style = (segments.size() > 1) ? segments[1] : "long"sv;
if (!is_sanctioned_unit(unit))
return;
patterns.as_object().for_each_member([&](auto const& type, auto const& pattern_value) {
constexpr auto number_key = "relative-type-"sv;
constexpr auto tense_key = "relativeTime-type-"sv;
constexpr auto plurality_key = "relativeTimePattern-count-"sv;
if (type.starts_with(number_key)) {
auto number = type.substring_view(number_key.length());
parse_pattern(unit, style, "Other"sv, number, pattern_value);
} else if (type.starts_with(tense_key)) {
pattern_value.as_object().for_each_member([&](auto const& key, auto const& pattern) {
VERIFY(key.starts_with(plurality_key));
auto plurality = key.substring_view(plurality_key.length());
auto tense = type.substring_view(tense_key.length());
parse_pattern(unit, style, plurality, tense, pattern);
});
}
});
});
return {};
}
static ErrorOr<void> parse_all_locales(String dates_path, UnicodeLocaleData& locale_data)
{
auto dates_iterator = TRY(path_to_dir_iterator(move(dates_path)));
@ -50,7 +165,8 @@ static ErrorOr<void> parse_all_locales(String dates_path, UnicodeLocaleData& loc
auto dates_path = TRY(next_path_from_dir_iterator(dates_iterator));
auto language = TRY(remove_variants_from_path(dates_path));
[[maybe_unused]] auto& locale = locale_data.locales.ensure(language);
auto& locale = locale_data.locales.ensure(language);
TRY(parse_date_fields(move(dates_path), locale_data, locale));
}
return {};
@ -81,10 +197,14 @@ static void generate_unicode_locale_implementation(Core::File& file, UnicodeLoca
StringBuilder builder;
SourceGenerator generator { builder };
generator.set("string_index_type"sv, s_string_index_type);
generator.set("relative_time_format_index_type"sv, s_relative_time_format_index_type);
generator.append(R"~~~(
#include <AK/Array.h>
#include <AK/StringView.h>
#include <AK/Vector.h>
#include <LibUnicode/Locale.h>
#include <LibUnicode/RelativeTimeFormat.h>
#include <LibUnicode/UnicodeRelativeTimeFormat.h>
namespace Unicode {
@ -93,6 +213,73 @@ namespace Unicode {
locale_data.unique_strings.generate(generator);
generator.append(R"~~~(
struct RelativeTimeFormatImpl {
RelativeTimeFormat to_relative_time_format() const
{
RelativeTimeFormat relative_time_format {};
relative_time_format.plurality = plurality;
relative_time_format.pattern = s_string_list[pattern];
return relative_time_format;
}
TimeUnit time_unit;
Style style;
RelativeTimeFormat::Plurality plurality;
@string_index_type@ tense_or_number { 0 };
@string_index_type@ pattern { 0 };
};
)~~~");
locale_data.unique_formats.generate(generator, "RelativeTimeFormatImpl"sv, "s_relative_time_formats"sv, 10);
auto append_list = [&](String name, auto const& list) {
generator.set("name", name);
generator.set("size", String::number(list.size()));
generator.append(R"~~~(
static constexpr Array<@relative_time_format_index_type@, @size@> @name@ { {)~~~");
bool first = true;
for (auto index : list) {
generator.append(first ? " " : ", ");
generator.append(String::number(index));
first = false;
}
generator.append(" } };");
};
generate_mapping(generator, locale_data.locales, s_relative_time_format_index_type, "s_locale_relative_time_formats"sv, "s_number_systems_digits_{}", nullptr, [&](auto const& name, auto const& value) { append_list(name, value.time_units); });
generator.append(R"~~~(
Vector<RelativeTimeFormat> get_relative_time_format_patterns(StringView locale, TimeUnit time_unit, StringView tense_or_number, Style style)
{
Vector<RelativeTimeFormat> formats;
auto locale_value = locale_from_string(locale);
if (!locale_value.has_value())
return formats;
auto locale_index = to_underlying(*locale_value) - 1; // Subtract 1 because 0 == Locale::None.
auto const& locale_formats = s_locale_relative_time_formats.at(locale_index);
for (auto const& locale_format_index : locale_formats) {
auto const& locale_format = s_relative_time_formats.at(locale_format_index);
if (locale_format.time_unit != time_unit)
continue;
if (locale_format.style != style)
continue;
if (s_string_list[locale_format.tense_or_number] != tense_or_number)
continue;
formats.append(locale_format.to_relative_time_format());
}
return formats;
}
}
)~~~");

1
Userland/Libraries/LibUnicode/CMakeLists.txt
View file

@ -13,6 +13,7 @@ set(SOURCES
DateTimeFormat.cpp
Locale.cpp
NumberFormat.cpp
RelativeTimeFormat.cpp
)
serenity_lib(LibUnicode unicode)

58
Userland/Libraries/LibUnicode/RelativeTimeFormat.cpp Normal file
View file

@ -0,0 +1,58 @@
/*
* Copyright (c) 2022, Tim Flynn <trflynn89@pm.me>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <LibUnicode/RelativeTimeFormat.h>
namespace Unicode {
Optional<TimeUnit> time_unit_from_string(StringView time_unit)
{
if (time_unit == "second"sv)
return TimeUnit::Second;
if (time_unit == "minute"sv)
return TimeUnit::Minute;
if (time_unit == "hour"sv)
return TimeUnit::Hour;
if (time_unit == "day"sv)
return TimeUnit::Day;
if (time_unit == "week"sv)
return TimeUnit::Week;
if (time_unit == "month"sv)
return TimeUnit::Month;
if (time_unit == "quarter"sv)
return TimeUnit::Quarter;
if (time_unit == "year"sv)
return TimeUnit::Year;
return {};
}
StringView time_unit_to_string(TimeUnit time_unit)
{
switch (time_unit) {
case TimeUnit::Second:
return "second"sv;
case TimeUnit::Minute:
return "minute"sv;
case TimeUnit::Hour:
return "hour"sv;
case TimeUnit::Day:
return "day"sv;
case TimeUnit::Week:
return "week"sv;
case TimeUnit::Month:
return "month"sv;
case TimeUnit::Quarter:
return "quarter"sv;
case TimeUnit::Year:
return "year"sv;
default:
VERIFY_NOT_REACHED();
}
}
Vector<RelativeTimeFormat> __attribute__((weak)) get_relative_time_format_patterns(StringView, TimeUnit, StringView, Style) { return {}; }
}

48
Userland/Libraries/LibUnicode/RelativeTimeFormat.h Normal file
View file

@ -0,0 +1,48 @@
/*
* Copyright (c) 2022, Tim Flynn <trflynn89@pm.me>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <AK/Optional.h>
#include <AK/StringView.h>
#include <AK/Vector.h>
#include <LibUnicode/Forward.h>
#include <LibUnicode/Locale.h>
namespace Unicode {
// These are just the subset of fields in the CLDR required for ECMA-402.
enum class TimeUnit {
Second,
Minute,
Hour,
Day,
Week,
Month,
Quarter,
Year,
};
struct RelativeTimeFormat {
enum class Plurality {
Zero,
One,
Two,
Few,
Many,
Other,
};
Plurality plurality { Plurality::Other };
StringView pattern;
};
Optional<TimeUnit> time_unit_from_string(StringView time_unit);
StringView time_unit_to_string(TimeUnit time_unit);
Vector<RelativeTimeFormat> get_relative_time_format_patterns(StringView locale, TimeUnit time_unit, StringView tense_or_number, Style style);
}