/*
* Copyright (c) 2021, Tim Flynn <trflynn89@pm.me>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/AllOf.h>
#include <AK/Array.h>
#include <AK/CharacterTypes.h>
#include <AK/HashMap.h>
#include <AK/Optional.h>
#include <AK/QuickSort.h>
#include <AK/SourceGenerator.h>
#include <AK/String.h>
#include <AK/StringUtils.h>
#include <AK/Types.h>
#include <AK/Vector.h>
#include <LibCore/ArgsParser.h>
#include <LibCore/File.h>
// Some code points are excluded from UnicodeData.txt, and instead are part of a "range" of code
// points, as indicated by the "name" field. For example:
// 3400;<CJK Ideograph Extension A, First>;Lo;0;L;;;;;N;;;;;
// 4DBF;<CJK Ideograph Extension A, Last>;Lo;0;L;;;;;N;;;;;
struct CodePointRange {
u32 index;
u32 first;
u32 last;
};
// SpecialCasing source: https://www.unicode.org/Public/13.0.0/ucd/SpecialCasing.txt
// Field descriptions: https://www.unicode.org/reports/tr44/tr44-13.html#SpecialCasing.txt
struct SpecialCasing {
u32 index { 0 };
u32 code_point { 0 };
Vector<u32> lowercase_mapping;
Vector<u32> uppercase_mapping;
Vector<u32> titlecase_mapping;
String locale;
String condition;
};
// PropList source: https://www.unicode.org/Public/13.0.0/ucd/PropList.txt
// Property descriptions: https://www.unicode.org/reports/tr44/tr44-13.html#PropList.txt
using PropList = HashMap<String, Vector<CodePointRange>>;
// UnicodeData source: https://www.unicode.org/Public/13.0.0/ucd/UnicodeData.txt
// Field descriptions: https://www.unicode.org/reports/tr44/tr44-13.html#UnicodeData.txt
struct CodePointData {
u32 index { 0 };
u32 code_point { 0 };
String name;
String general_category;
u8 canonical_combining_class { 0 };
String bidi_class;
String decomposition_type;
Optional<i8> numeric_value_decimal;
Optional<i8> numeric_value_digit;
Optional<i8> numeric_value_numeric;
bool bidi_mirrored { false };
String unicode_1_name;
String iso_comment;
Optional<u32> simple_uppercase_mapping;
Optional<u32> simple_lowercase_mapping;
Optional<u32> simple_titlecase_mapping;
Vector<u32> special_casing_indices;
Vector<StringView> prop_list;
StringView word_break_property;
};
struct UnicodeData {
Vector<SpecialCasing> special_casing;
u32 largest_casing_transform_size { 0 };
u32 largest_special_casing_size { 0 };
Vector<String> locales;
Vector<String> conditions;
Vector<CodePointData> code_point_data;
Vector<CodePointRange> code_point_ranges;
Vector<String> general_categories;
u32 last_contiguous_code_point { 0 };
PropList prop_list;
u32 largest_prop_list_size { 0 };
PropList word_break_prop_list;
};
static constexpr auto s_desired_fields = Array {
"general_category"sv,
"simple_uppercase_mapping"sv,
"simple_lowercase_mapping"sv,
};
static void parse_special_casing(Core::File& file, UnicodeData& unicode_data)
{
auto parse_code_point_list = [&](auto const& line) {
Vector<u32> code_points;
auto segments = line.split(' ');
for (auto const& code_point : segments)
code_points.append(AK::StringUtils::convert_to_uint_from_hex<u32>(code_point).value());
return code_points;
};
while (file.can_read_line()) {
auto line = file.read_line();
if (line.is_empty() || line.starts_with('#'))
continue;
if (auto index = line.find('#'); index.has_value())
line = line.substring(0, *index);
auto segments = line.split(';', true);
VERIFY(segments.size() == 5 || segments.size() == 6);
SpecialCasing casing {};
casing.index = static_cast<u32>(unicode_data.special_casing.size());
casing.code_point = AK::StringUtils::convert_to_uint_from_hex<u32>(segments[0]).value();
casing.lowercase_mapping = parse_code_point_list(segments[1]);
casing.titlecase_mapping = parse_code_point_list(segments[2]);
casing.uppercase_mapping = parse_code_point_list(segments[3]);
if (auto condition = segments[4].trim_whitespace(); !condition.is_empty()) {
auto conditions = condition.split(' ', true);
VERIFY(conditions.size() == 1 || conditions.size() == 2);
if (conditions.size() == 2) {
casing.locale = move(conditions[0]);
casing.condition = move(conditions[1]);
} else if (all_of(conditions[0], is_ascii_lower_alpha)) {
casing.locale = move(conditions[0]);
} else {
casing.condition = move(conditions[0]);
}
casing.locale = casing.locale.to_uppercase();
casing.condition.replace("_", "", true);
if (!casing.locale.is_empty() && !unicode_data.locales.contains_slow(casing.locale))
unicode_data.locales.append(casing.locale);
if (!casing.condition.is_empty() && !unicode_data.conditions.contains_slow(casing.condition))
unicode_data.conditions.append(casing.condition);
}
unicode_data.largest_casing_transform_size = max(unicode_data.largest_casing_transform_size, casing.lowercase_mapping.size());
unicode_data.largest_casing_transform_size = max(unicode_data.largest_casing_transform_size, casing.titlecase_mapping.size());
unicode_data.largest_casing_transform_size = max(unicode_data.largest_casing_transform_size, casing.uppercase_mapping.size());
unicode_data.special_casing.append(move(casing));
}
quick_sort(unicode_data.locales);
quick_sort(unicode_data.conditions);
}
static void parse_prop_list(Core::File& file, PropList& prop_list)
{
while (file.can_read_line()) {
auto line = file.read_line();
if (line.is_empty() || line.starts_with('#'))
continue;
if (auto index = line.find('#'); index.has_value())
line = line.substring(0, *index);
auto segments = line.split_view(';', true);
VERIFY(segments.size() == 2);
auto code_point_range = segments[0].trim_whitespace();
auto property = segments[1].trim_whitespace().to_string();
property.replace("_", "", true);
auto& code_points = prop_list.ensure(property);
if (code_point_range.contains(".."sv)) {
segments = code_point_range.split_view(".."sv);
VERIFY(segments.size() == 2);
auto begin = AK::StringUtils::convert_to_uint_from_hex<u32>(segments[0]).value();
auto end = AK::StringUtils::convert_to_uint_from_hex<u32>(segments[1]).value();
code_points.append({ 0, begin, end });
} else {
auto code_point = AK::StringUtils::convert_to_uint_from_hex<u32>(code_point_range).value();
code_points.append({ 0, code_point, code_point });
}
}
}
static void parse_unicode_data(Core::File& file, UnicodeData& unicode_data)
{
Optional<u32> code_point_range_start;
Optional<u32> code_point_range_index;
Optional<u32> last_contiguous_code_point;
u32 previous_code_point = 0;
while (file.can_read_line()) {
auto line = file.read_line();
if (line.is_empty())
continue;
auto segments = line.split(';', true);
VERIFY(segments.size() == 15);
CodePointData data {};
data.index = static_cast<u32>(unicode_data.code_point_data.size());
data.code_point = AK::StringUtils::convert_to_uint_from_hex<u32>(segments[0]).value();
data.name = move(segments[1]);
data.general_category = move(segments[2]);
data.canonical_combining_class = AK::StringUtils::convert_to_uint<u8>(segments[3]).value();
data.bidi_class = move(segments[4]);
data.decomposition_type = move(segments[5]);
data.numeric_value_decimal = AK::StringUtils::convert_to_int<i8>(segments[6]);
data.numeric_value_digit = AK::StringUtils::convert_to_int<i8>(segments[7]);
data.numeric_value_numeric = AK::StringUtils::convert_to_int<i8>(segments[8]);
data.bidi_mirrored = segments[9] == "Y"sv;
data.unicode_1_name = move(segments[10]);
data.iso_comment = move(segments[11]);
data.simple_uppercase_mapping = AK::StringUtils::convert_to_uint_from_hex<u32>(segments[12]);
data.simple_lowercase_mapping = AK::StringUtils::convert_to_uint_from_hex<u32>(segments[13]);
data.simple_titlecase_mapping = AK::StringUtils::convert_to_uint_from_hex<u32>(segments[14]);
if (data.name.starts_with("<"sv) && data.name.ends_with(", First>")) {
VERIFY(!code_point_range_start.has_value() && !code_point_range_index.has_value());
code_point_range_start = data.code_point;
code_point_range_index = data.index;
data.name = data.name.substring(1, data.name.length() - 9);
} else if (data.name.starts_with("<"sv) && data.name.ends_with(", Last>")) {
VERIFY(code_point_range_start.has_value() && code_point_range_index.has_value());
unicode_data.code_point_ranges.append({ *code_point_range_index, *code_point_range_start, data.code_point });
data.name = data.name.substring(1, data.name.length() - 8);
code_point_range_start.clear();
code_point_range_index.clear();
} else if ((data.code_point > 0) && (data.code_point - previous_code_point) != 1) {
if (!last_contiguous_code_point.has_value())
last_contiguous_code_point = previous_code_point;
}
for (auto const& casing : unicode_data.special_casing) {
if (casing.code_point == data.code_point)
data.special_casing_indices.append(casing.index);
}
for (auto const& property : unicode_data.prop_list) {
for (auto const& range : property.value) {
if ((range.first <= data.code_point) && (data.code_point <= range.last)) {
data.prop_list.append(property.key);
break;
}
}
}
for (auto const& property : unicode_data.word_break_prop_list) {
for (auto const& range : property.value) {
if ((range.first <= data.code_point) && (data.code_point <= range.last)) {
data.word_break_property = property.key;
break;
}
}
if (!data.word_break_property.is_empty())
break;
}
if (data.word_break_property.is_empty())
data.word_break_property = "Other"sv;
unicode_data.largest_special_casing_size = max(unicode_data.largest_special_casing_size, data.special_casing_indices.size());
unicode_data.largest_prop_list_size = max(unicode_data.largest_prop_list_size, data.prop_list.size());
if (!unicode_data.general_categories.contains_slow(data.general_category))
unicode_data.general_categories.append(data.general_category);
previous_code_point = data.code_point;
unicode_data.code_point_data.append(move(data));
}
quick_sort(unicode_data.general_categories);
unicode_data.last_contiguous_code_point = *last_contiguous_code_point;
}
static void generate_unicode_data_header(UnicodeData const& unicode_data)
{
StringBuilder builder;
SourceGenerator generator { builder };
generator.set("casing_transform_size", String::number(unicode_data.largest_casing_transform_size));
generator.set("special_casing_size", String::number(unicode_data.largest_special_casing_size));
generator.set("prop_list_size", String::number(unicode_data.largest_prop_list_size));
generator.append(R"~~~(
#pragma once
#include <AK/Optional.h>
#include <AK/Types.h>
namespace Unicode {
enum class Locale {
None,)~~~");
for (auto const& locale : unicode_data.locales) {
generator.set("locale", locale);
generator.append(R"~~~(
@locale@,)~~~");
}
generator.append(R"~~~(
};
enum class Condition {
None,)~~~");
for (auto const& condition : unicode_data.conditions) {
generator.set("condition", condition);
generator.append(R"~~~(
@condition@,)~~~");
}
generator.append(R"~~~(
};
// https://www.unicode.org/reports/tr44/#General_Category_Values
enum class GeneralCategory {)~~~");
for (auto const& general_category : unicode_data.general_categories) {
generator.set("general_category", general_category);
generator.append(R"~~~(
@general_category@,)~~~");
}
generator.append(R"~~~(
};
enum class Property {)~~~");
auto properties = unicode_data.prop_list.keys();
quick_sort(properties);
for (auto const& property : properties) {
generator.set("property", property);
generator.append(R"~~~(
@property@,)~~~");
}
generator.append(R"~~~(
};
enum class WordBreakProperty {
Other,)~~~");
properties = unicode_data.word_break_prop_list.keys();
quick_sort(properties);
for (auto const& property : properties) {
generator.set("property", property);
generator.append(R"~~~(
@property@,)~~~");
}
generator.append(R"~~~(
};
struct SpecialCasing {
u32 code_point { 0 };
u32 lowercase_mapping[@casing_transform_size@];
u32 lowercase_mapping_size { 0 };
u32 uppercase_mapping[@casing_transform_size@];
u32 uppercase_mapping_size { 0 };
u32 titlecase_mapping[@casing_transform_size@];
u32 titlecase_mapping_size { 0 };
Locale locale { Locale::None };
Condition condition { Condition::None };
};
struct UnicodeData {
u32 code_point;)~~~");
auto append_field = [&](StringView type, StringView name) {
if (!s_desired_fields.span().contains_slow(name))
return;
generator.set("type", type);
generator.set("name", name);
generator.append(R"~~~(
@type@ @name@;)~~~");
};
// Note: For compile-time performance, only primitive types are used.
append_field("char const*"sv, "name"sv);
append_field("GeneralCategory"sv, "general_category"sv);
append_field("u8"sv, "canonical_combining_class"sv);
append_field("char const*"sv, "bidi_class"sv);
append_field("char const*"sv, "decomposition_type"sv);
append_field("i8"sv, "numeric_value_decimal"sv);
append_field("i8"sv, "numeric_value_digit"sv);
append_field("i8"sv, "numeric_value_numeric"sv);
append_field("bool"sv, "bidi_mirrored"sv);
append_field("char const*"sv, "unicode_1_name"sv);
append_field("char const*"sv, "iso_comment"sv);
append_field("u32"sv, "simple_uppercase_mapping"sv);
append_field("u32"sv, "simple_lowercase_mapping"sv);
append_field("u32"sv, "simple_titlecase_mapping"sv);
generator.append(R"~~~(
SpecialCasing const* special_casing[@special_casing_size@] {};
u32 special_casing_size { 0 };
Property prop_list[@prop_list_size@] {};
u32 prop_list_size { 0 };
WordBreakProperty word_break_property { WordBreakProperty::Other };
};
Optional<UnicodeData> unicode_data_for_code_point(u32 code_point);
})~~~");
outln("{}", generator.as_string_view());
}
static void generate_unicode_data_implementation(UnicodeData unicode_data)
{
StringBuilder builder;
SourceGenerator generator { builder };
generator.set("special_casing_size", String::number(unicode_data.special_casing.size()));
generator.set("code_point_data_size", String::number(unicode_data.code_point_data.size()));
generator.set("last_contiguous_code_point", String::formatted("0x{:x}", unicode_data.last_contiguous_code_point));
generator.append(R"~~~(
#include <AK/Array.h>
#include <AK/CharacterTypes.h>
#include <AK/Find.h>
#include <LibUnicode/UnicodeData.h>
namespace Unicode {
)~~~");
auto append_list_and_size = [&](auto const& list, StringView format) {
if (list.is_empty()) {
generator.append(", {}, 0");
return;
}
bool first = true;
generator.append(", {");
for (auto const& item : list) {
generator.append(first ? " " : ", ");
generator.append(String::formatted(format, item));
first = false;
}
generator.append(String::formatted(" }}, {}", list.size()));
};
generator.append(R"~~~(
static constexpr Array<SpecialCasing, @special_casing_size@> s_special_casing { {)~~~");
for (auto const& casing : unicode_data.special_casing) {
generator.set("code_point", String::formatted("{:#x}", casing.code_point));
generator.append(R"~~~(
{ @code_point@)~~~");
constexpr auto format = "0x{:x}"sv;
append_list_and_size(casing.lowercase_mapping, format);
append_list_and_size(casing.uppercase_mapping, format);
append_list_and_size(casing.titlecase_mapping, format);
generator.set("locale", casing.locale.is_empty() ? "None" : casing.locale);
generator.append(", Locale::@locale@");
generator.set("condition", casing.condition.is_empty() ? "None" : casing.condition);
generator.append(", Condition::@condition@");
generator.append(" },");
}
generator.append(R"~~~(
} };
static constexpr Array<UnicodeData, @code_point_data_size@> s_unicode_data { {)~~~");
auto append_field = [&](StringView name, String value) {
if (!s_desired_fields.span().contains_slow(name))
return;
generator.set("value", move(value));
generator.append(", @value@");
};
for (auto const& data : unicode_data.code_point_data) {
generator.set("code_point", String::formatted("{:#x}", data.code_point));
generator.append(R"~~~(
{ @code_point@)~~~");
append_field("name", String::formatted("\"{}\"", data.name));
append_field("general_category", String::formatted("GeneralCategory::{}", data.general_category));
append_field("canonical_combining_class", String::number(data.canonical_combining_class));
append_field("bidi_class", String::formatted("\"{}\"", data.bidi_class));
append_field("decomposition_type", String::formatted("\"{}\"", data.decomposition_type));
append_field("numeric_value_decimal", String::number(data.numeric_value_decimal.value_or(-1)));
append_field("numeric_value_digit", String::number(data.numeric_value_digit.value_or(-1)));
append_field("numeric_value_numeric", String::number(data.numeric_value_numeric.value_or(-1)));
append_field("bidi_mirrored", String::formatted("{}", data.bidi_mirrored));
append_field("unicode_1_name", String::formatted("\"{}\"", data.unicode_1_name));
append_field("iso_comment", String::formatted("\"{}\"", data.iso_comment));
append_field("simple_uppercase_mapping", String::formatted("{:#x}", data.simple_uppercase_mapping.value_or(data.code_point)));
append_field("simple_lowercase_mapping", String::formatted("{:#x}", data.simple_lowercase_mapping.value_or(data.code_point)));
append_field("simple_titlecase_mapping", String::formatted("{:#x}", data.simple_titlecase_mapping.value_or(data.code_point)));
append_list_and_size(data.special_casing_indices, "&s_special_casing[{}]"sv);
append_list_and_size(data.prop_list, "Property::{}"sv);
generator.append(String::formatted(", WordBreakProperty::{}", data.word_break_property));
generator.append(" },");
}
generator.append(R"~~~(
} };
static Optional<u32> index_of_code_point_in_range(u32 code_point)
{)~~~");
for (auto const& range : unicode_data.code_point_ranges) {
generator.set("index", String::formatted("{}", range.index));
generator.set("first", String::formatted("{:#x}", range.first));
generator.set("last", String::formatted("{:#x}", range.last));
generator.append(R"~~~(
if ((code_point > @first@) && (code_point < @last@))
return @index@;)~~~");
}
generator.append(R"~~~(
return {};
}
Optional<UnicodeData> unicode_data_for_code_point(u32 code_point)
{
VERIFY(is_unicode(code_point));
if (code_point <= @last_contiguous_code_point@)
return s_unicode_data[code_point];
if (auto index = index_of_code_point_in_range(code_point); index.has_value()) {
auto data_for_range = s_unicode_data[*index];
data_for_range.simple_uppercase_mapping = code_point;
data_for_range.simple_lowercase_mapping = code_point;
return data_for_range;
}
auto it = AK::find_if(s_unicode_data.begin(), s_unicode_data.end(), [code_point](auto const& data) { return data.code_point == code_point; });
if (it != s_unicode_data.end())
return *it;
return {};
}
})~~~");
outln("{}", generator.as_string_view());
}
int main(int argc, char** argv)
{
bool generate_header = false;
bool generate_implementation = false;
char const* unicode_data_path = nullptr;
char const* special_casing_path = nullptr;
char const* prop_list_path = nullptr;
char const* word_break_path = nullptr;
Core::ArgsParser args_parser;
args_parser.add_option(generate_header, "Generate the Unicode Data header file", "generate-header", 'h');
args_parser.add_option(generate_implementation, "Generate the Unicode Data implementation file", "generate-implementation", 'c');
args_parser.add_option(unicode_data_path, "Path to UnicodeData.txt file", "unicode-data-path", 'u', "unicode-data-path");
args_parser.add_option(special_casing_path, "Path to SpecialCasing.txt file", "special-casing-path", 's', "special-casing-path");
args_parser.add_option(prop_list_path, "Path to PropList.txt file", "prop-list-path", 'p', "prop-list-path");
args_parser.add_option(word_break_path, "Path to WordBreakProperty.txt file", "word-break-path", 'w', "word-break-path");
args_parser.parse(argc, argv);
if (!generate_header && !generate_implementation) {
warnln("At least one of -h/--generate-header or -c/--generate-implementation is required");
args_parser.print_usage(stderr, argv[0]);
return 1;
}
if (!unicode_data_path) {
warnln("-u/--unicode-data-path is required");
args_parser.print_usage(stderr, argv[0]);
return 1;
}
if (!special_casing_path) {
warnln("-s/--special-casing-path is required");
args_parser.print_usage(stderr, argv[0]);
return 1;
}
if (!prop_list_path) {
warnln("-p/--prop-list-path is required");
args_parser.print_usage(stderr, argv[0]);
return 1;
}
if (!word_break_path) {
warnln("-w/--word-break-path is required");
args_parser.print_usage(stderr, argv[0]);
return 1;
}
auto unicode_data_file_or_error = Core::File::open(unicode_data_path, Core::OpenMode::ReadOnly);
if (unicode_data_file_or_error.is_error()) {
warnln("Failed to open {}: {}", unicode_data_path, unicode_data_file_or_error.release_error());
return 1;
}
auto special_casing_file_or_error = Core::File::open(special_casing_path, Core::OpenMode::ReadOnly);
if (special_casing_file_or_error.is_error()) {
warnln("Failed to open {}: {}", special_casing_path, special_casing_file_or_error.release_error());
return 1;
}
auto prop_list_file_or_error = Core::File::open(prop_list_path, Core::OpenMode::ReadOnly);
if (prop_list_file_or_error.is_error()) {
warnln("Failed to open {}: {}", prop_list_path, prop_list_file_or_error.release_error());
return 1;
}
auto word_break_file_or_error = Core::File::open(word_break_path, Core::OpenMode::ReadOnly);
if (word_break_file_or_error.is_error()) {
warnln("Failed to open {}: {}", word_break_path, word_break_file_or_error.release_error());
return 1;
}
UnicodeData unicode_data {};
parse_special_casing(special_casing_file_or_error.value(), unicode_data);
parse_prop_list(prop_list_file_or_error.value(), unicode_data.prop_list);
parse_prop_list(word_break_file_or_error.value(), unicode_data.word_break_prop_list);
parse_unicode_data(unicode_data_file_or_error.value(), unicode_data);
if (generate_header)
generate_unicode_data_header(unicode_data);
if (generate_implementation)
generate_unicode_data_implementation(move(unicode_data));
return 0;
}