ladybird/Userland/Libraries/LibIDL/IDLParser.cpp

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/*
* Copyright (c) 2020-2021, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2021, Linus Groh <linusg@serenityos.org>
* Copyright (c) 2021, Luke Wilde <lukew@serenityos.org>
* Copyright (c) 2022, Ali Mohammad Pur <mpfard@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include "IDLParser.h"
#include <AK/Assertions.h>
#include <AK/LexicalPath.h>
#include <AK/QuickSort.h>
#include <LibCore/File.h>
[[noreturn]] static void report_parsing_error(StringView message, StringView filename, StringView input, size_t offset)
{
// FIXME: Spaghetti code ahead.
size_t lineno = 1;
size_t colno = 1;
size_t start_line = 0;
size_t line_length = 0;
for (size_t index = 0; index < input.length(); ++index) {
if (offset == index)
colno = index - start_line + 1;
if (input[index] == '\n') {
if (index >= offset)
break;
start_line = index + 1;
line_length = 0;
++lineno;
} else {
++line_length;
}
}
StringBuilder error_message;
error_message.appendff("{}\n", input.substring_view(start_line, line_length));
for (size_t i = 0; i < colno - 1; ++i)
error_message.append(' ');
error_message.append("\033[1;31m^\n"sv);
error_message.appendff("{}:{}: error: {}\033[0m\n", filename, lineno, message);
warnln("{}", error_message.string_view());
exit(EXIT_FAILURE);
}
static String convert_enumeration_value_to_cpp_enum_member(String const& value, HashTable<String>& names_already_seen)
{
StringBuilder builder;
GenericLexer lexer { value };
while (!lexer.is_eof()) {
lexer.ignore_while([](auto c) { return is_ascii_space(c) || c == '-' || c == '_'; });
auto word = lexer.consume_while([](auto c) { return is_ascii_alphanumeric(c); });
if (!word.is_empty()) {
builder.append(word.to_titlecase_string());
} else {
auto non_alnum_string = lexer.consume_while([](auto c) { return !is_ascii_alphanumeric(c); });
if (!non_alnum_string.is_empty())
builder.append('_');
}
}
if (builder.is_empty())
builder.append("Empty"sv);
while (names_already_seen.contains(builder.string_view()))
builder.append('_');
names_already_seen.set(builder.string_view());
return builder.build();
}
namespace IDL {
void Parser::assert_specific(char ch)
{
if (!lexer.consume_specific(ch))
report_parsing_error(String::formatted("expected '{}'", ch), filename, input, lexer.tell());
}
void Parser::consume_whitespace()
{
bool consumed = true;
while (consumed) {
consumed = lexer.consume_while(is_ascii_space).length() > 0;
if (lexer.consume_specific("//")) {
lexer.consume_until('\n');
lexer.ignore();
consumed = true;
}
}
}
void Parser::assert_string(StringView expected)
{
if (!lexer.consume_specific(expected))
report_parsing_error(String::formatted("expected '{}'", expected), filename, input, lexer.tell());
}
HashMap<String, String> Parser::parse_extended_attributes()
{
HashMap<String, String> extended_attributes;
for (;;) {
consume_whitespace();
if (lexer.consume_specific(']'))
break;
auto name = lexer.consume_until([](auto ch) { return ch == ']' || ch == '=' || ch == ','; });
if (lexer.consume_specific('=')) {
bool did_open_paren = false;
auto value = lexer.consume_until(
[&did_open_paren](auto ch) mutable {
if (ch == '(') {
did_open_paren = true;
return false;
}
if (did_open_paren)
return ch == ')';
return ch == ']' || ch == ',';
});
extended_attributes.set(name, value);
} else {
extended_attributes.set(name, {});
}
lexer.consume_specific(',');
}
consume_whitespace();
return extended_attributes;
}
static HashTable<String> import_stack;
Optional<Interface&> Parser::resolve_import(auto path)
{
auto include_path = LexicalPath::join(import_base_path, path).string();
if (!Core::File::exists(include_path))
report_parsing_error(String::formatted("{}: No such file or directory", include_path), filename, input, lexer.tell());
auto real_path = Core::File::real_path_for(include_path);
if (top_level_resolved_imports().contains(real_path))
return *top_level_resolved_imports().find(real_path)->value;
if (import_stack.contains(real_path))
report_parsing_error(String::formatted("Circular import detected: {}", include_path), filename, input, lexer.tell());
import_stack.set(real_path);
auto file_or_error = Core::File::open(real_path, Core::OpenMode::ReadOnly);
if (file_or_error.is_error())
report_parsing_error(String::formatted("Failed to open {}: {}", real_path, file_or_error.error()), filename, input, lexer.tell());
auto data = file_or_error.value()->read_all();
auto& result = Parser(this, real_path, data, import_base_path).parse();
import_stack.remove(real_path);
top_level_resolved_imports().set(real_path, &result);
return result;
}
NonnullRefPtr<Type> Parser::parse_type()
{
if (lexer.consume_specific('(')) {
NonnullRefPtrVector<Type> union_member_types;
union_member_types.append(parse_type());
consume_whitespace();
assert_string("or"sv);
consume_whitespace();
union_member_types.append(parse_type());
consume_whitespace();
while (lexer.consume_specific("or")) {
consume_whitespace();
union_member_types.append(parse_type());
consume_whitespace();
}
assert_specific(')');
bool nullable = lexer.consume_specific('?');
return adopt_ref(*new UnionType("", nullable, move(union_member_types)));
}
bool unsigned_ = lexer.consume_specific("unsigned");
if (unsigned_)
consume_whitespace();
// FIXME: Actually treat "unrestricted" and normal floats/doubles differently.
if (lexer.consume_specific("unrestricted"))
consume_whitespace();
auto name = lexer.consume_until([](auto ch) { return !is_ascii_alphanumeric(ch) && ch != '_'; });
if (name.equals_ignoring_case("long"sv)) {
consume_whitespace();
if (lexer.consume_specific("long"sv))
name = "long long"sv;
}
NonnullRefPtrVector<Type> parameters;
bool is_parameterized_type = false;
if (lexer.consume_specific('<')) {
is_parameterized_type = true;
parameters.append(parse_type());
while (lexer.consume_specific(',')) {
consume_whitespace();
parameters.append(parse_type());
}
lexer.consume_specific('>');
}
auto nullable = lexer.consume_specific('?');
StringBuilder builder;
if (unsigned_)
builder.append("unsigned "sv);
builder.append(name);
if (is_parameterized_type)
return adopt_ref(*new ParameterizedType(builder.to_string(), nullable, move(parameters)));
return adopt_ref(*new Type(builder.to_string(), nullable));
}
void Parser::parse_attribute(HashMap<String, String>& extended_attributes, Interface& interface)
{
bool inherit = lexer.consume_specific("inherit");
if (inherit)
consume_whitespace();
bool readonly = lexer.consume_specific("readonly");
if (readonly)
consume_whitespace();
if (lexer.consume_specific("attribute"))
consume_whitespace();
auto type = parse_type();
consume_whitespace();
auto name = lexer.consume_until([](auto ch) { return is_ascii_space(ch) || ch == ';'; });
consume_whitespace();
assert_specific(';');
auto name_as_string = name.to_string();
auto getter_callback_name = String::formatted("{}_getter", name_as_string.to_snakecase());
auto setter_callback_name = String::formatted("{}_setter", name_as_string.to_snakecase());
Attribute attribute {
inherit,
readonly,
move(type),
move(name_as_string),
move(extended_attributes),
move(getter_callback_name),
move(setter_callback_name),
};
interface.attributes.append(move(attribute));
}
void Parser::parse_constant(Interface& interface)
{
lexer.consume_specific("const");
consume_whitespace();
auto type = parse_type();
consume_whitespace();
auto name = lexer.consume_until([](auto ch) { return is_ascii_space(ch) || ch == '='; });
consume_whitespace();
lexer.consume_specific('=');
consume_whitespace();
auto value = lexer.consume_while([](auto ch) { return !is_ascii_space(ch) && ch != ';'; });
consume_whitespace();
assert_specific(';');
Constant constant {
move(type),
move(name),
move(value),
};
interface.constants.append(move(constant));
}
Vector<Parameter> Parser::parse_parameters()
{
consume_whitespace();
Vector<Parameter> parameters;
for (;;) {
if (lexer.next_is(')'))
break;
HashMap<String, String> extended_attributes;
if (lexer.consume_specific('['))
extended_attributes = parse_extended_attributes();
bool optional = lexer.consume_specific("optional");
if (optional)
consume_whitespace();
auto type = parse_type();
bool variadic = lexer.consume_specific("..."sv);
consume_whitespace();
auto name = lexer.consume_until([](auto ch) { return is_ascii_space(ch) || ch == ',' || ch == ')' || ch == '='; });
Parameter parameter = { move(type), move(name), optional, {}, extended_attributes, variadic };
consume_whitespace();
if (variadic) {
// Variadic parameters must be last and do not have default values.
parameters.append(move(parameter));
break;
}
if (lexer.next_is(')')) {
parameters.append(move(parameter));
break;
}
if (lexer.next_is('=') && optional) {
assert_specific('=');
consume_whitespace();
auto default_value = lexer.consume_until([](auto ch) { return is_ascii_space(ch) || ch == ',' || ch == ')'; });
parameter.optional_default_value = default_value;
}
parameters.append(move(parameter));
if (lexer.next_is(')'))
break;
assert_specific(',');
consume_whitespace();
}
return parameters;
}
Function Parser::parse_function(HashMap<String, String>& extended_attributes, Interface& interface, IsSpecialOperation is_special_operation)
{
bool static_ = false;
if (lexer.consume_specific("static")) {
static_ = true;
consume_whitespace();
}
auto return_type = parse_type();
consume_whitespace();
auto name = lexer.consume_until([](auto ch) { return is_ascii_space(ch) || ch == '('; });
consume_whitespace();
assert_specific('(');
auto parameters = parse_parameters();
assert_specific(')');
consume_whitespace();
assert_specific(';');
Function function { move(return_type), name, move(parameters), move(extended_attributes), {}, false };
// "Defining a special operation with an identifier is equivalent to separating the special operation out into its own declaration without an identifier."
if (is_special_operation == IsSpecialOperation::No || (is_special_operation == IsSpecialOperation::Yes && !name.is_empty())) {
if (!static_)
interface.functions.append(function);
else
interface.static_functions.append(function);
}
return function;
}
void Parser::parse_constructor(Interface& interface)
{
assert_string("constructor"sv);
consume_whitespace();
assert_specific('(');
auto parameters = parse_parameters();
assert_specific(')');
consume_whitespace();
assert_specific(';');
interface.constructors.append(Constructor { interface.name, move(parameters) });
}
void Parser::parse_stringifier(HashMap<String, String>& extended_attributes, Interface& interface)
{
assert_string("stringifier"sv);
consume_whitespace();
interface.has_stringifier = true;
if (lexer.next_is("attribute"sv) || lexer.next_is("inherit"sv) || lexer.next_is("readonly"sv)) {
parse_attribute(extended_attributes, interface);
interface.stringifier_attribute = interface.attributes.last().name;
} else {
assert_specific(';');
}
}
void Parser::parse_iterable(Interface& interface)
{
assert_string("iterable"sv);
assert_specific('<');
auto first_type = parse_type();
if (lexer.next_is(',')) {
if (interface.supports_indexed_properties())
report_parsing_error("Interfaces with a pair iterator must not supported indexed properties."sv, filename, input, lexer.tell());
assert_specific(',');
consume_whitespace();
auto second_type = parse_type();
interface.pair_iterator_types = Tuple { move(first_type), move(second_type) };
} else {
if (!interface.supports_indexed_properties())
report_parsing_error("Interfaces with a value iterator must supported indexed properties."sv, filename, input, lexer.tell());
interface.value_iterator_type = move(first_type);
}
assert_specific('>');
assert_specific(';');
}
void Parser::parse_getter(HashMap<String, String>& extended_attributes, Interface& interface)
{
assert_string("getter"sv);
consume_whitespace();
auto function = parse_function(extended_attributes, interface, IsSpecialOperation::Yes);
if (function.parameters.size() != 1)
report_parsing_error(String::formatted("Named/indexed property getters must have only 1 parameter, got {} parameters.", function.parameters.size()), filename, input, lexer.tell());
auto& identifier = function.parameters.first();
if (identifier.type->is_nullable())
report_parsing_error("identifier's type must not be nullable."sv, filename, input, lexer.tell());
if (identifier.optional)
report_parsing_error("identifier must not be optional."sv, filename, input, lexer.tell());
// FIXME: Disallow variadic functions once they're supported.
if (identifier.type->name() == "DOMString") {
if (interface.named_property_getter.has_value())
report_parsing_error("An interface can only have one named property getter."sv, filename, input, lexer.tell());
interface.named_property_getter = move(function);
} else if (identifier.type->name() == "unsigned long") {
if (interface.indexed_property_getter.has_value())
report_parsing_error("An interface can only have one indexed property getter."sv, filename, input, lexer.tell());
interface.indexed_property_getter = move(function);
} else {
report_parsing_error(String::formatted("Named/indexed property getter's identifier's type must be either 'DOMString' or 'unsigned long', got '{}'.", identifier.type->name()), filename, input, lexer.tell());
}
}
void Parser::parse_setter(HashMap<String, String>& extended_attributes, Interface& interface)
{
assert_string("setter"sv);
consume_whitespace();
auto function = parse_function(extended_attributes, interface, IsSpecialOperation::Yes);
if (function.parameters.size() != 2)
report_parsing_error(String::formatted("Named/indexed property setters must have only 2 parameters, got {} parameter(s).", function.parameters.size()), filename, input, lexer.tell());
auto& identifier = function.parameters.first();
if (identifier.type->is_nullable())
report_parsing_error("identifier's type must not be nullable."sv, filename, input, lexer.tell());
if (identifier.optional)
report_parsing_error("identifier must not be optional."sv, filename, input, lexer.tell());
// FIXME: Disallow variadic functions once they're supported.
if (identifier.type->name() == "DOMString") {
if (interface.named_property_setter.has_value())
report_parsing_error("An interface can only have one named property setter."sv, filename, input, lexer.tell());
if (!interface.named_property_getter.has_value())
report_parsing_error("A named property setter must be accompanied by a named property getter."sv, filename, input, lexer.tell());
interface.named_property_setter = move(function);
} else if (identifier.type->name() == "unsigned long") {
if (interface.indexed_property_setter.has_value())
report_parsing_error("An interface can only have one indexed property setter."sv, filename, input, lexer.tell());
if (!interface.indexed_property_getter.has_value())
report_parsing_error("An indexed property setter must be accompanied by an indexed property getter."sv, filename, input, lexer.tell());
interface.indexed_property_setter = move(function);
} else {
report_parsing_error(String::formatted("Named/indexed property setter's identifier's type must be either 'DOMString' or 'unsigned long', got '{}'.", identifier.type->name()), filename, input, lexer.tell());
}
}
void Parser::parse_deleter(HashMap<String, String>& extended_attributes, Interface& interface)
{
assert_string("deleter"sv);
consume_whitespace();
auto function = parse_function(extended_attributes, interface, IsSpecialOperation::Yes);
if (function.parameters.size() != 1)
report_parsing_error(String::formatted("Named property deleter must have only 1 parameter, got {} parameters.", function.parameters.size()), filename, input, lexer.tell());
auto& identifier = function.parameters.first();
if (identifier.type->is_nullable())
report_parsing_error("identifier's type must not be nullable."sv, filename, input, lexer.tell());
if (identifier.optional)
report_parsing_error("identifier must not be optional."sv, filename, input, lexer.tell());
// FIXME: Disallow variadic functions once they're supported.
if (identifier.type->name() == "DOMString") {
if (interface.named_property_deleter.has_value())
report_parsing_error("An interface can only have one named property deleter."sv, filename, input, lexer.tell());
if (!interface.named_property_getter.has_value())
report_parsing_error("A named property deleter must be accompanied by a named property getter."sv, filename, input, lexer.tell());
interface.named_property_deleter = move(function);
} else {
report_parsing_error(String::formatted("Named property deleter's identifier's type must be 'DOMString', got '{}'.", identifier.type->name()), filename, input, lexer.tell());
}
}
void Parser::parse_interface(Interface& interface)
{
consume_whitespace();
interface.name = lexer.consume_until([](auto ch) { return is_ascii_space(ch); });
consume_whitespace();
if (lexer.consume_specific(':')) {
consume_whitespace();
interface.parent_name = lexer.consume_until([](auto ch) { return is_ascii_space(ch); });
consume_whitespace();
}
assert_specific('{');
for (;;) {
HashMap<String, String> extended_attributes;
consume_whitespace();
if (lexer.consume_specific('}')) {
consume_whitespace();
assert_specific(';');
break;
}
if (lexer.consume_specific('[')) {
extended_attributes = parse_extended_attributes();
if (!interface.has_unscopable_member && extended_attributes.contains("Unscopable"))
interface.has_unscopable_member = true;
}
if (lexer.next_is("constructor")) {
parse_constructor(interface);
continue;
}
if (lexer.next_is("const")) {
parse_constant(interface);
continue;
}
if (lexer.next_is("stringifier")) {
parse_stringifier(extended_attributes, interface);
continue;
}
if (lexer.next_is("iterable")) {
parse_iterable(interface);
continue;
}
if (lexer.next_is("inherit") || lexer.next_is("readonly") || lexer.next_is("attribute")) {
parse_attribute(extended_attributes, interface);
continue;
}
if (lexer.next_is("getter")) {
parse_getter(extended_attributes, interface);
continue;
}
if (lexer.next_is("setter")) {
parse_setter(extended_attributes, interface);
continue;
}
if (lexer.next_is("deleter")) {
parse_deleter(extended_attributes, interface);
continue;
}
parse_function(extended_attributes, interface);
}
interface.constructor_class = String::formatted("{}Constructor", interface.name);
interface.prototype_class = String::formatted("{}Prototype", interface.name);
interface.prototype_base_class = String::formatted("{}Prototype", interface.parent_name.is_empty() ? "Object" : interface.parent_name);
consume_whitespace();
}
void Parser::parse_enumeration(Interface& interface)
{
assert_string("enum"sv);
consume_whitespace();
Enumeration enumeration {};
auto name = lexer.consume_until([](auto ch) { return is_ascii_space(ch); });
consume_whitespace();
assert_specific('{');
bool first = true;
for (; !lexer.is_eof();) {
consume_whitespace();
if (lexer.next_is('}'))
break;
if (!first) {
assert_specific(',');
consume_whitespace();
}
assert_specific('"');
auto string = lexer.consume_until('"');
assert_specific('"');
consume_whitespace();
if (enumeration.values.contains(string))
report_parsing_error(String::formatted("Enumeration {} contains duplicate member '{}'", name, string), filename, input, lexer.tell());
else
enumeration.values.set(string);
if (first)
enumeration.first_member = move(string);
first = false;
}
consume_whitespace();
assert_specific('}');
assert_specific(';');
HashTable<String> names_already_seen;
for (auto& entry : enumeration.values)
enumeration.translated_cpp_names.set(entry, convert_enumeration_value_to_cpp_enum_member(entry, names_already_seen));
interface.enumerations.set(name, move(enumeration));
consume_whitespace();
}
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void Parser::parse_typedef(Interface& interface)
{
assert_string("typedef"sv);
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consume_whitespace();
HashMap<String, String> extended_attributes;
if (lexer.consume_specific('['))
extended_attributes = parse_extended_attributes();
auto type = parse_type();
consume_whitespace();
auto name = lexer.consume_until(';');
assert_specific(';');
interface.typedefs.set(name, Typedef { move(extended_attributes), move(type) });
consume_whitespace();
}
void Parser::parse_dictionary(Interface& interface)
{
assert_string("dictionary"sv);
consume_whitespace();
Dictionary dictionary {};
auto name = lexer.consume_until([](auto ch) { return is_ascii_space(ch); });
consume_whitespace();
if (lexer.consume_specific(':')) {
consume_whitespace();
dictionary.parent_name = lexer.consume_until([](auto ch) { return is_ascii_space(ch); });
consume_whitespace();
}
assert_specific('{');
for (;;) {
consume_whitespace();
if (lexer.consume_specific('}')) {
consume_whitespace();
assert_specific(';');
break;
}
bool required = false;
HashMap<String, String> extended_attributes;
if (lexer.consume_specific("required")) {
required = true;
consume_whitespace();
if (lexer.consume_specific('['))
extended_attributes = parse_extended_attributes();
}
auto type = parse_type();
consume_whitespace();
auto name = lexer.consume_until([](auto ch) { return is_ascii_space(ch) || ch == ';'; });
consume_whitespace();
Optional<StringView> default_value;
if (lexer.consume_specific('=')) {
VERIFY(!required);
consume_whitespace();
default_value = lexer.consume_until([](auto ch) { return is_ascii_space(ch) || ch == ';'; });
consume_whitespace();
}
assert_specific(';');
DictionaryMember member {
required,
move(type),
name,
move(extended_attributes),
Optional<String>(move(default_value)),
};
dictionary.members.append(move(member));
}
// dictionary members need to be evaluated in lexicographical order
quick_sort(dictionary.members, [&](auto& one, auto& two) {
return one.name < two.name;
});
interface.dictionaries.set(name, move(dictionary));
consume_whitespace();
}
void Parser::parse_interface_mixin(Interface& interface)
{
auto mixin_interface_ptr = make<Interface>();
auto& mixin_interface = *mixin_interface_ptr;
VERIFY(top_level_interfaces().set(move(mixin_interface_ptr)) == AK::HashSetResult::InsertedNewEntry);
mixin_interface.module_own_path = interface.module_own_path;
mixin_interface.is_mixin = true;
assert_string("interface"sv);
consume_whitespace();
assert_string("mixin"sv);
auto offset = lexer.tell();
parse_interface(mixin_interface);
if (!mixin_interface.parent_name.is_empty())
report_parsing_error("Mixin interfaces are not allowed to have inherited parents"sv, filename, input, offset);
auto name = mixin_interface.name;
interface.mixins.set(move(name), &mixin_interface);
}
void Parser::parse_callback_function(HashMap<String, String>& extended_attributes, Interface& interface)
{
assert_string("callback"sv);
consume_whitespace();
auto name = lexer.consume_until([](auto ch) { return is_ascii_space(ch); });
consume_whitespace();
assert_specific('=');
consume_whitespace();
auto return_type = parse_type();
consume_whitespace();
assert_specific('(');
auto parameters = parse_parameters();
assert_specific(')');
consume_whitespace();
assert_specific(';');
interface.callback_functions.set(name, CallbackFunction { move(return_type), move(parameters), extended_attributes.contains("LegacyTreatNonObjectAsNull") });
consume_whitespace();
}
void Parser::parse_non_interface_entities(bool allow_interface, Interface& interface)
{
consume_whitespace();
while (!lexer.is_eof()) {
HashMap<String, String> extended_attributes;
if (lexer.consume_specific('['))
extended_attributes = parse_extended_attributes();
if (lexer.next_is("dictionary")) {
parse_dictionary(interface);
} else if (lexer.next_is("enum")) {
parse_enumeration(interface);
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} else if (lexer.next_is("typedef")) {
parse_typedef(interface);
} else if (lexer.next_is("interface mixin")) {
parse_interface_mixin(interface);
} else if (lexer.next_is("callback")) {
parse_callback_function(extended_attributes, interface);
} else if ((allow_interface && !lexer.next_is("interface")) || !allow_interface) {
auto current_offset = lexer.tell();
auto name = lexer.consume_until([](auto ch) { return is_ascii_space(ch); });
consume_whitespace();
if (lexer.consume_specific("includes")) {
consume_whitespace();
auto mixin_name = lexer.consume_until([](auto ch) { return is_ascii_space(ch) || ch == ';'; });
interface.included_mixins.ensure(name).set(mixin_name);
consume_whitespace();
assert_specific(';');
consume_whitespace();
} else {
report_parsing_error("expected 'enum' or 'dictionary'"sv, filename, input, current_offset);
}
} else {
interface.extended_attributes = move(extended_attributes);
break;
}
}
consume_whitespace();
}
static void resolve_typedef(Interface& interface, NonnullRefPtr<Type>& type, HashMap<String, String>* extended_attributes = {})
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{
if (is<ParameterizedType>(*type)) {
auto parameterized_type = static_ptr_cast<ParameterizedType>(type);
auto& parameters = static_cast<Vector<NonnullRefPtr<Type>>&>(parameterized_type->parameters());
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for (auto& parameter : parameters)
resolve_typedef(interface, parameter);
return;
}
auto it = interface.typedefs.find(type->name());
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if (it == interface.typedefs.end())
return;
bool nullable = type->is_nullable();
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type = it->value.type;
type->set_nullable(nullable);
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if (!extended_attributes)
return;
for (auto& attribute : it->value.extended_attributes)
extended_attributes->set(attribute.key, attribute.value);
}
static void resolve_parameters_typedefs(Interface& interface, Vector<Parameter>& parameters)
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{
for (auto& parameter : parameters)
resolve_typedef(interface, parameter.type, &parameter.extended_attributes);
}
template<typename FunctionType>
void resolve_function_typedefs(Interface& interface, FunctionType& function)
{
resolve_typedef(interface, function.return_type);
resolve_parameters_typedefs(interface, function.parameters);
}
Interface& Parser::parse()
{
auto this_module = Core::File::real_path_for(filename);
auto interface_ptr = make<Interface>();
auto& interface = *interface_ptr;
VERIFY(top_level_interfaces().set(move(interface_ptr)) == AK::HashSetResult::InsertedNewEntry);
interface.module_own_path = this_module;
top_level_resolved_imports().set(this_module, &interface);
Vector<Interface&> imports;
HashTable<String> required_imported_paths;
while (lexer.consume_specific("#import")) {
consume_whitespace();
assert_specific('<');
auto path = lexer.consume_until('>');
lexer.ignore();
auto maybe_interface = resolve_import(path);
if (maybe_interface.has_value()) {
for (auto& entry : maybe_interface.value().required_imported_paths)
required_imported_paths.set(entry);
imports.append(maybe_interface.release_value());
}
consume_whitespace();
}
interface.required_imported_paths = required_imported_paths;
parse_non_interface_entities(true, interface);
if (lexer.consume_specific("interface"))
parse_interface(interface);
parse_non_interface_entities(false, interface);
for (auto& import : imports) {
// FIXME: Instead of copying every imported entity into the current interface, query imports directly
for (auto& dictionary : import.dictionaries)
interface.dictionaries.set(dictionary.key, dictionary.value);
for (auto& enumeration : import.enumerations) {
auto enumeration_copy = enumeration.value;
enumeration_copy.is_original_definition = false;
interface.enumerations.set(enumeration.key, move(enumeration_copy));
}
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for (auto& typedef_ : import.typedefs)
interface.typedefs.set(typedef_.key, typedef_.value);
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for (auto& mixin : import.mixins) {
if (auto it = interface.mixins.find(mixin.key); it != interface.mixins.end() && it->value != mixin.value)
report_parsing_error(String::formatted("Mixin '{}' was already defined in {}", mixin.key, mixin.value->module_own_path), filename, input, lexer.tell());
interface.mixins.set(mixin.key, mixin.value);
}
for (auto& callback_function : import.callback_functions)
interface.callback_functions.set(callback_function.key, callback_function.value);
}
// Resolve mixins
if (auto it = interface.included_mixins.find(interface.name); it != interface.included_mixins.end()) {
for (auto& entry : it->value) {
auto mixin_it = interface.mixins.find(entry);
if (mixin_it == interface.mixins.end())
report_parsing_error(String::formatted("Mixin '{}' was never defined", entry), filename, input, lexer.tell());
auto& mixin = mixin_it->value;
interface.attributes.extend(mixin->attributes);
interface.constants.extend(mixin->constants);
interface.functions.extend(mixin->functions);
interface.static_functions.extend(mixin->static_functions);
if (interface.has_stringifier && mixin->has_stringifier)
report_parsing_error(String::formatted("Both interface '{}' and mixin '{}' have defined stringifier attributes", interface.name, mixin->name), filename, input, lexer.tell());
if (mixin->has_stringifier) {
interface.stringifier_attribute = mixin->stringifier_attribute;
interface.has_stringifier = true;
}
if (mixin->has_unscopable_member)
interface.has_unscopable_member = true;
}
}
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// Resolve typedefs
for (auto& attribute : interface.attributes)
resolve_typedef(interface, attribute.type, &attribute.extended_attributes);
for (auto& constant : interface.constants)
resolve_typedef(interface, constant.type);
for (auto& constructor : interface.constructors)
resolve_parameters_typedefs(interface, constructor.parameters);
for (auto& function : interface.functions)
resolve_function_typedefs(interface, function);
for (auto& static_function : interface.static_functions)
resolve_function_typedefs(interface, static_function);
if (interface.value_iterator_type.has_value())
resolve_typedef(interface, *interface.value_iterator_type);
if (interface.pair_iterator_types.has_value()) {
resolve_typedef(interface, interface.pair_iterator_types->get<0>());
resolve_typedef(interface, interface.pair_iterator_types->get<1>());
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}
if (interface.named_property_getter.has_value())
resolve_function_typedefs(interface, *interface.named_property_getter);
if (interface.named_property_setter.has_value())
resolve_function_typedefs(interface, *interface.named_property_setter);
if (interface.indexed_property_getter.has_value())
resolve_function_typedefs(interface, *interface.indexed_property_getter);
if (interface.indexed_property_setter.has_value())
resolve_function_typedefs(interface, *interface.indexed_property_setter);
if (interface.named_property_deleter.has_value())
resolve_function_typedefs(interface, *interface.named_property_deleter);
if (interface.named_property_getter.has_value())
resolve_function_typedefs(interface, *interface.named_property_getter);
for (auto& dictionary : interface.dictionaries) {
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for (auto& dictionary_member : dictionary.value.members)
resolve_typedef(interface, dictionary_member.type, &dictionary_member.extended_attributes);
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}
for (auto& callback_function : interface.callback_functions)
resolve_function_typedefs(interface, callback_function.value);
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// Create overload sets
for (auto& function : interface.functions) {
auto& overload_set = interface.overload_sets.ensure(function.name);
function.overload_index = overload_set.size();
overload_set.append(function);
}
for (auto& overload_set : interface.overload_sets) {
if (overload_set.value.size() == 1)
continue;
for (auto& overloaded_function : overload_set.value)
overloaded_function.is_overloaded = true;
}
for (auto& function : interface.static_functions) {
auto& overload_set = interface.static_overload_sets.ensure(function.name);
function.overload_index = overload_set.size();
overload_set.append(function);
}
for (auto& overload_set : interface.static_overload_sets) {
if (overload_set.value.size() == 1)
continue;
for (auto& overloaded_function : overload_set.value)
overloaded_function.is_overloaded = true;
}
// FIXME: Add support for overloading constructors
if (interface.will_generate_code())
interface.required_imported_paths.set(this_module);
interface.imported_modules = move(imports);
if (top_level_parser() == this)
VERIFY(import_stack.is_empty());
return interface;
}
Parser::Parser(String filename, StringView contents, String import_base_path)
: import_base_path(move(import_base_path))
, filename(move(filename))
, input(contents)
, lexer(input)
{
}
Parser::Parser(Parser* parent, String filename, StringView contents, String import_base_path)
: import_base_path(move(import_base_path))
, filename(move(filename))
, input(contents)
, lexer(input)
, parent(parent)
{
}
Parser* Parser::top_level_parser()
{
Parser* current = this;
for (Parser* next = this; next; next = next->parent)
current = next;
return current;
}
HashMap<String, Interface*>& Parser::top_level_resolved_imports()
{
return top_level_parser()->resolved_imports;
}
HashTable<NonnullOwnPtr<Interface>>& Parser::top_level_interfaces()
{
return top_level_parser()->interfaces;
}
}