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ladybird/Meta/Lagom/Tools/CodeGenerators/LibUnicode/GeneratorUtil.h
Timothy Flynn a338e9403b LibUnicode: Port the CLDR locale generator to the stream API 
This adds a generator utility to read an entire file and parse it as a
JSON value. This is heavily used by the CLDR generators. The idea here
is to put the file reading details in the utility so that when we have a
good story for generically reading an entire stream in LibCore, we can
update the generators to use that by only touching this helper.
2022-02-14 11:39:46 -05:00

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/*
* Copyright (c) 2021, Tim Flynn <trflynn89@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <AK/Format.h>
#include <AK/HashFunctions.h>
#include <AK/HashMap.h>
#include <AK/JsonValue.h>
#include <AK/LexicalPath.h>
#include <AK/Optional.h>
#include <AK/QuickSort.h>
#include <AK/SourceGenerator.h>
#include <AK/String.h>
#include <AK/StringBuilder.h>
#include <AK/StringView.h>
#include <AK/Traits.h>
#include <AK/Vector.h>
#include <LibCore/DirIterator.h>
#include <LibCore/File.h>
#include <LibCore/Stream.h>
#include <LibUnicode/Locale.h>
template<class T>
inline constexpr bool StorageTypeIsList = false;
template<class T>
inline constexpr bool StorageTypeIsList<Vector<T>> = true;
template<typename T>
concept IntegralOrEnum = Integral<T> || Enum<T>;
template<IntegralOrEnum T>
struct AK::Traits<Vector<T>> : public GenericTraits<Vector<T>> {
static unsigned hash(Vector<T> const& list)
{
auto hash = int_hash(static_cast<u32>(list.size()));
for (auto value : list) {
if constexpr (Enum<T>)
hash = pair_int_hash(hash, to_underlying(value));
else
hash = pair_int_hash(hash, value);
}
return hash;
}
};
template<typename StorageType, typename IndexType>
class UniqueStorage {
public:
IndexType ensure(StorageType value)
{
// We maintain a set of unique values in two structures: a vector which stores the values in
// the order they are added, and a hash map which maps that value to its index in the vector.
// The vector is to ensure the values are generated in an easily known order, and the map is
// to allow quickly deciding if a value is actually unique (otherwise, we'd have to linearly
// search the vector for each value).
//
// Also note that index 0 will be reserved for the default-initialized value, so the index
// returned from this method is actually the real index in the vector + 1.
if (auto index = m_storage_indices.get(value); index.has_value())
return *index;
m_storage.append(move(value));
size_t index = m_storage.size();
VERIFY(index < NumericLimits<IndexType>::max());
auto storage_index = static_cast<IndexType>(index);
m_storage_indices.set(m_storage.last(), storage_index);
return storage_index;
}
StorageType const& get(IndexType index) const
{
if (index == 0) {
static StorageType empty {};
return empty;
}
VERIFY(index <= m_storage.size());
return m_storage.at(index - 1);
}
void generate(SourceGenerator& generator, StringView type, StringView name, size_t max_values_per_row) requires(!StorageTypeIsList<StorageType>)
{
generator.set("type"sv, type);
generator.set("name"sv, name);
generator.set("size"sv, String::number(m_storage.size()));
generator.append(R"~~~(
static constexpr Array<@type@, @size@ + 1> @name@ { {
{})~~~");
size_t values_in_current_row = 1;
for (auto const& value : m_storage) {
if (values_in_current_row++ > 0)
generator.append(", ");
if constexpr (IsSame<StorageType, String>)
generator.append(String::formatted("\"{}\"sv", value));
else
generator.append(String::formatted("{}", value));
if (values_in_current_row == max_values_per_row) {
values_in_current_row = 0;
generator.append(",\n ");
}
}
generator.append(R"~~~(
} };
)~~~");
}
void generate(SourceGenerator& generator, StringView type, StringView name) requires(StorageTypeIsList<StorageType>)
{
generator.set("type"sv, type);
generator.set("name"sv, name);
for (size_t i = 0; i < m_storage.size(); ++i) {
auto const& list = m_storage[i];
generator.set("index"sv, String::number(i));
generator.set("size"sv, String::number(list.size()));
generator.append(R"~~~(
static constexpr Array<@type@, @size@> @name@@index@ { {)~~~");
bool first = true;
for (auto const& value : list) {
generator.append(first ? " " : ", ");
generator.append(String::formatted("{}", value));
first = false;
}
generator.append(" } };");
}
generator.set("size"sv, String::number(m_storage.size()));
generator.append(R"~~~(
static constexpr Array<Span<@type@ const>, @size@ + 1> @name@ { {
{})~~~");
constexpr size_t max_values_per_row = 10;
size_t values_in_current_row = 1;
for (size_t i = 0; i < m_storage.size(); ++i) {
if (values_in_current_row++ > 0)
generator.append(", ");
generator.set("index"sv, String::number(i));
generator.append("@name@@index@.span()");
if (values_in_current_row == max_values_per_row) {
values_in_current_row = 0;
generator.append(",\n ");
}
}
generator.append(R"~~~(
} };
)~~~");
}
// clang-format off
// clang-format gets confused by the requires() clauses above, and formats this section very weirdly.
private:
Vector<StorageType> m_storage;
HashMap<StorageType, IndexType> m_storage_indices;
// clang-format on
};
template<typename StringIndexType>
class UniqueStringStorage : public UniqueStorage<String, StringIndexType> {
using Base = UniqueStorage<String, StringIndexType>;
public:
void generate(SourceGenerator& generator)
{
Base::generate(generator, "StringView"sv, "s_string_list"sv, 40);
}
};
struct Alias {
String name;
String alias;
};
template<typename StringIndexType>
struct CanonicalLanguageID {
static ErrorOr<CanonicalLanguageID> parse(UniqueStringStorage<StringIndexType>& unique_strings, StringView language)
{
CanonicalLanguageID language_id {};
auto segments = language.split_view('-');
VERIFY(!segments.is_empty());
size_t index = 0;
if (Unicode::is_unicode_language_subtag(segments[index])) {
language_id.language = unique_strings.ensure(segments[index]);
if (segments.size() == ++index)
return language_id;
} else {
return Error::from_string_literal("Expected language subtag"sv);
}
if (Unicode::is_unicode_script_subtag(segments[index])) {
language_id.script = unique_strings.ensure(segments[index]);
if (segments.size() == ++index)
return language_id;
}
if (Unicode::is_unicode_region_subtag(segments[index])) {
language_id.region = unique_strings.ensure(segments[index]);
if (segments.size() == ++index)
return language_id;
}
while (index < segments.size()) {
if (!Unicode::is_unicode_variant_subtag(segments[index]))
return Error::from_string_literal("Expected variant subtag"sv);
language_id.variants.append(unique_strings.ensure(segments[index++]));
}
return language_id;
}
StringIndexType language { 0 };
StringIndexType script { 0 };
StringIndexType region { 0 };
Vector<StringIndexType> variants {};
};
inline ErrorOr<NonnullOwnPtr<Core::Stream::BufferedFile>> open_file(StringView path, Core::Stream::OpenMode mode)
{
if (path.is_empty())
return Error::from_string_literal("Provided path is empty, please provide all command line options"sv);
auto file = TRY(Core::Stream::File::open(path, mode));
return Core::Stream::BufferedFile::create(move(file));
}
inline ErrorOr<JsonValue> read_json_file(StringView path)
{
auto file = TRY(open_file(path, Core::Stream::OpenMode::Read));
StringBuilder builder;
Array<u8, 4096> buffer;
// FIXME: When Core::Stream supports reading an entire file, use that.
while (TRY(file->can_read_line())) {
auto nread = TRY(file->read(buffer));
TRY(builder.try_append(reinterpret_cast<char const*>(buffer.data()), nread));
}
return JsonValue::from_string(builder.build());
}
inline ErrorOr<Core::DirIterator> path_to_dir_iterator(String path, StringView subpath = "main"sv)
{
LexicalPath lexical_path(move(path));
if (!subpath.is_empty())
lexical_path = lexical_path.append(subpath);
Core::DirIterator iterator(lexical_path.string(), Core::DirIterator::SkipParentAndBaseDir);
if (iterator.has_error())
return Error::from_string_literal(iterator.error_string());
return iterator;
}
inline ErrorOr<String> next_path_from_dir_iterator(Core::DirIterator& iterator)
{
auto next_path = iterator.next_full_path();
if (iterator.has_error())
return Error::from_string_literal(iterator.error_string());
return next_path;
}
inline void ensure_from_string_types_are_generated(SourceGenerator& generator)
{
static bool generated_from_string_types = false;
if (generated_from_string_types)
return;
generator.append(R"~~~(
template <typename ValueType>
struct HashValuePair {
unsigned hash { 0 };
ValueType value {};
};
template <typename ValueType>
struct HashValueComparator
{
constexpr int operator()(unsigned hash, HashValuePair<ValueType> const& pair)
{
if (hash > pair.hash)
return 1;
if (hash < pair.hash)
return -1;
return 0;
}
};
)~~~");
generated_from_string_types = true;
}
template<typename ValueType>
using HashValueMap = HashMap<unsigned, ValueType>;
struct ValueFromStringOptions {
Optional<StringView> return_type {};
StringView return_format { "{}"sv };
CaseSensitivity sensitivity { CaseSensitivity::CaseSensitive };
};
template<typename ValueType>
void generate_value_from_string(SourceGenerator& generator, StringView method_name_format, StringView value_type, StringView value_name, HashValueMap<ValueType> hashes, ValueFromStringOptions options = {})
{
ensure_from_string_types_are_generated(generator);
generator.set("method_name", String::formatted(method_name_format, value_name));
generator.set("value_type", value_type);
generator.set("value_name", value_name);
generator.set("return_type", options.return_type.has_value() ? *options.return_type : value_type);
generator.set("size", String::number(hashes.size()));
generator.append(R"~~~(
Optional<@return_type@> @method_name@(StringView key)
{
constexpr Array<HashValuePair<@value_type@>, @size@> hash_pairs { {
)~~~");
auto hash_keys = hashes.keys();
quick_sort(hash_keys);
constexpr size_t max_values_per_row = 10;
size_t values_in_current_row = 0;
for (auto hash_key : hash_keys) {
if (values_in_current_row++ > 0)
generator.append(" ");
if constexpr (IsIntegral<ValueType>)
generator.set("value"sv, String::number(hashes.get(hash_key).value()));
else
generator.set("value"sv, String::formatted("{}::{}", value_type, hashes.get(hash_key).value()));
generator.set("hash"sv, String::number(hash_key));
generator.append("{ @hash@U, @value@ },"sv);
if (values_in_current_row == max_values_per_row) {
generator.append("\n ");
values_in_current_row = 0;
}
}
generator.set("return_statement", String::formatted(options.return_format, "value->value"sv));
generator.append(R"~~~(
} };
)~~~");
if (options.sensitivity == CaseSensitivity::CaseSensitive) {
generator.append(R"~~~(
auto hash = key.hash();
)~~~");
} else {
generator.append(R"~~~(
auto hash = CaseInsensitiveStringViewTraits::hash(key);
)~~~");
}
generator.append(R"~~~(
if (auto const* value = binary_search(hash_pairs, hash, nullptr, HashValueComparator<@value_type@> {}))
return @return_statement@;
return {};
}
)~~~");
}
template<typename IdentifierFormatter>
void generate_value_to_string(SourceGenerator& generator, StringView method_name_format, StringView value_type, StringView value_name, IdentifierFormatter&& format_identifier, Span<String const> values)
{
generator.set("method_name", String::formatted(method_name_format, value_name));
generator.set("value_type", value_type);
generator.set("value_name", value_name);
generator.append(R"~~~(
StringView @method_name@(@value_type@ @value_name@)
{
using enum @value_type@;
switch (@value_name@) {)~~~");
for (auto const& value : values) {
generator.set("enum_value", format_identifier(value_type, value));
generator.set("string_value", value);
generator.append(R"~~~(
case @enum_value@:
return "@string_value@"sv;)~~~");
}
generator.append(R"~~~(
}
VERIFY_NOT_REACHED();
}
)~~~");
}
template<typename IdentifierFormatter>
void generate_enum(SourceGenerator& generator, IdentifierFormatter&& format_identifier, StringView name, StringView default_, Vector<String>& values, Vector<Alias> aliases = {})
{
quick_sort(values, [](auto const& value1, auto const& value2) { return value1.to_lowercase() < value2.to_lowercase(); });
quick_sort(aliases, [](auto const& alias1, auto const& alias2) { return alias1.alias.to_lowercase() < alias2.alias.to_lowercase(); });
generator.set("name", name);
generator.set("underlying", ((values.size() + !default_.is_empty()) < 256) ? "u8"sv : "u16"sv);
generator.append(R"~~~(
enum class @name@ : @underlying@ {)~~~");
if (!default_.is_empty()) {
generator.set("default", default_);
generator.append(R"~~~(
@default@,)~~~");
}
for (auto const& value : values) {
generator.set("value", format_identifier(name, value));
generator.append(R"~~~(
@value@,)~~~");
}
for (auto const& alias : aliases) {
generator.set("alias", format_identifier(name, alias.alias));
generator.set("value", format_identifier(name, alias.name));
generator.append(R"~~~(
@alias@ = @value@,)~~~");
}
generator.append(R"~~~(
};
)~~~");
}
template<typename LocalesType, typename IdentifierFormatter, typename ListFormatter>
void generate_mapping(SourceGenerator& generator, LocalesType const& locales, StringView type, StringView name, StringView format, IdentifierFormatter&& format_identifier, ListFormatter&& format_list)
{
auto format_mapping_name = [&](StringView format, StringView name) {
String mapping_name;
if constexpr (IsNullPointer<IdentifierFormatter>)
mapping_name = name.replace("-"sv, "_"sv, true);
else
mapping_name = format_identifier(type, name);
return String::formatted(format, mapping_name.to_lowercase());
};
Vector<String> mapping_names;
for (auto const& locale : locales) {
String mapping_name;
if constexpr (requires { locale.key; }) {
mapping_name = format_mapping_name(format, locale.key);
format_list(mapping_name, locale.value);
} else {
mapping_name = format_mapping_name(format, locale);
format_list(mapping_name, locale);
}
mapping_names.append(move(mapping_name));
}
quick_sort(mapping_names);
generator.set("type", type);
generator.set("name", name);
generator.set("size", String::number(locales.size()));
generator.append(R"~~~(
static constexpr Array<Span<@type@ const>, @size@> @name@ { {
)~~~");
constexpr size_t max_values_per_row = 10;
size_t values_in_current_row = 0;
for (auto& mapping_name : mapping_names) {
if (values_in_current_row++ > 0)
generator.append(" ");
generator.set("name", move(mapping_name));
generator.append("@name@.span(),");
if (values_in_current_row == max_values_per_row) {
values_in_current_row = 0;
generator.append("\n ");
}
}
generator.append(R"~~~(
} };
)~~~");
}
template<typename T>
void generate_available_values(SourceGenerator& generator, StringView name, Vector<T> const& values, Vector<Alias> const& aliases = {})
{
generator.set("name", name);
generator.set("size", String::number(values.size()));
generator.append(R"~~~(
Span<StringView const> @name@()
{
static constexpr Array<StringView, @size@> values { {)~~~");
bool first = true;
for (auto const& value : values) {
generator.append(first ? " " : ", ");
first = false;
if (auto it = aliases.find_if([&](auto const& alias) { return alias.name == value; }); it != aliases.end())
generator.append(String::formatted("\"{}\"sv", it->alias));
else
generator.append(String::formatted("\"{}\"sv", value));
}
generator.append(R"~~~( } };
return values.span();
}
)~~~");
}
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