/*
* Copyright (c) 2021, Itamar S. <itamar8910@gmail.com>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include "Parser.h"
#include "AST.h"
#include <AK/Debug.h>
#include <AK/ScopeGuard.h>
#include <AK/ScopeLogger.h>
#include <LibCpp/Lexer.h>
#define LOG_SCOPE() ScopeLogger<CPP_DEBUG> logger(DeprecatedString::formatted("'{}' - {} ({})", peek().text(), peek().type_as_deprecated_string(), m_state.token_index))
namespace Cpp {
Parser::Parser(Vector<Token> tokens, DeprecatedString const& filename)
: m_filename(filename)
, m_tokens(move(tokens))
{
if constexpr (CPP_DEBUG) {
dbgln("Tokens:");
for (size_t i = 0; i < m_tokens.size(); ++i) {
dbgln("{}- {}", i, m_tokens[i].to_deprecated_string());
}
}
}
NonnullRefPtr<TranslationUnit> Parser::parse()
{
LOG_SCOPE();
if (m_tokens.is_empty())
return create_root_ast_node({}, {});
auto unit = create_root_ast_node(m_tokens.first().start(), m_tokens.last().end());
unit->set_declarations(parse_declarations_in_translation_unit(*unit));
return unit;
}
Vector<NonnullRefPtr<Declaration const>> Parser::parse_declarations_in_translation_unit(ASTNode const& parent)
{
Vector<NonnullRefPtr<Declaration const>> declarations;
while (!eof()) {
auto declaration = parse_single_declaration_in_translation_unit(parent);
if (declaration) {
declarations.append(declaration.release_nonnull());
} else {
error("unexpected token"sv);
consume();
}
}
return declarations;
}
RefPtr<Declaration const> Parser::parse_single_declaration_in_translation_unit(ASTNode const& parent)
{
while (!eof()) {
if (match_comment()) {
consume(Token::Type::Comment);
continue;
}
if (match_preprocessor()) {
consume_preprocessor();
continue;
}
auto declaration = match_declaration_in_translation_unit();
if (declaration.has_value()) {
return parse_declaration(parent, declaration.value());
}
return {};
}
return {};
}
NonnullRefPtr<Declaration const> Parser::parse_declaration(ASTNode const& parent, DeclarationType declaration_type)
{
switch (declaration_type) {
case DeclarationType::Function:
return parse_function_declaration(parent);
case DeclarationType::Variable:
return parse_variable_declaration(parent);
case DeclarationType::Enum:
return parse_enum_declaration(parent);
case DeclarationType::Class:
return parse_class_declaration(parent);
case DeclarationType::Namespace:
return parse_namespace_declaration(parent);
case DeclarationType::Constructor:
return parse_constructor(parent);
case DeclarationType::Destructor:
return parse_destructor(parent);
case DeclarationType::UsingNamespace:
return parse_using_namespace_declaration(parent);
default:
error("unexpected declaration type"sv);
return create_ast_node<InvalidDeclaration>(parent, position(), position());
}
}
NonnullRefPtr<FunctionDeclaration const> Parser::parse_function_declaration(ASTNode const& parent)
{
auto func = create_ast_node<FunctionDeclaration>(parent, position(), {});
func->set_qualifiers(parse_function_qualifiers());
func->set_return_type(parse_type(*func));
func->set_name(parse_name(*func));
consume(Token::Type::LeftParen);
auto parameters = parse_parameter_list(*func);
if (parameters.has_value())
func->set_parameters(parameters.value());
consume(Token::Type::RightParen);
while (match_keyword("const") || match_keyword("override")) {
consume();
// FIXME: Note that this function is supposed to be a class member, and `this` has to be const, somehow.
}
RefPtr<FunctionDefinition const> body;
Position func_end {};
if (peek(Token::Type::LeftCurly).has_value()) {
body = parse_function_definition(*func);
func_end = body->end();
} else {
func_end = position();
if (match_attribute_specification())
consume_attribute_specification(); // we don't use the value of __attribute__
consume(Token::Type::Semicolon);
}
func->set_definition(move(body));
func->set_end(func_end);
return func;
}
NonnullRefPtr<FunctionDefinition const> Parser::parse_function_definition(ASTNode const& parent)
{
LOG_SCOPE();
auto func = create_ast_node<FunctionDefinition>(parent, position(), {});
consume(Token::Type::LeftCurly);
while (!eof() && peek().type() != Token::Type::RightCurly) {
func->add_statement(parse_statement(func));
}
func->set_end(position());
if (!eof())
consume(Token::Type::RightCurly);
return func;
}
NonnullRefPtr<Statement const> Parser::parse_statement(ASTNode const& parent)
{
LOG_SCOPE();
ArmedScopeGuard consume_semicolon([this]() {
consume(Token::Type::Semicolon);
});
if (match_block_statement()) {
consume_semicolon.disarm();
return parse_block_statement(parent);
}
if (match_comment()) {
consume_semicolon.disarm();
return parse_comment(parent);
}
if (match_variable_declaration()) {
return parse_variable_declaration(parent, false);
}
if (match_expression()) {
return parse_expression(parent);
}
if (match_keyword("return")) {
return parse_return_statement(parent);
}
if (match_keyword("for")) {
consume_semicolon.disarm();
return parse_for_statement(parent);
}
if (match_keyword("if")) {
consume_semicolon.disarm();
return parse_if_statement(parent);
} else {
error("unexpected statement type"sv);
consume_semicolon.disarm();
consume();
return create_ast_node<InvalidStatement>(parent, position(), position());
}
}
NonnullRefPtr<Comment const> Parser::parse_comment(ASTNode const& parent)
{
auto comment = create_ast_node<Comment>(parent, position(), {});
consume(Token::Type::Comment);
comment->set_end(position());
return comment;
}
bool Parser::match_block_statement()
{
return peek().type() == Token::Type::LeftCurly;
}
NonnullRefPtr<BlockStatement const> Parser::parse_block_statement(ASTNode const& parent)
{
LOG_SCOPE();
auto block_statement = create_ast_node<BlockStatement>(parent, position(), {});
consume(Token::Type::LeftCurly);
while (!eof() && peek().type() != Token::Type::RightCurly) {
block_statement->add_statement(parse_statement(*block_statement));
}
consume(Token::Type::RightCurly);
block_statement->set_end(position());
return block_statement;
}
bool Parser::match_type()
{
return match_named_type();
}
bool Parser::match_named_type()
{
save_state();
ScopeGuard state_guard = [this] { load_state(); };
parse_type_qualifiers();
if (match_keyword("auto")) {
return true;
}
if (match_keyword("struct")) {
consume(Token::Type::Keyword); // Consume struct prefix
}
if (!match_name())
return false;
return true;
}
bool Parser::match_template_arguments()
{
save_state();
ScopeGuard state_guard = [this] { load_state(); };
if (!peek(Token::Type::Less).has_value())
return false;
consume();
while (!eof() && peek().type() != Token::Type::Greater) {
if (!match_named_type())
return false;
(void)parse_type(get_dummy_node());
}
return peek().type() == Token::Type::Greater;
}
Vector<NonnullRefPtr<Type const>> Parser::parse_template_arguments(ASTNode const& parent)
{
LOG_SCOPE();
consume(Token::Type::Less);
Vector<NonnullRefPtr<Type const>> template_arguments;
while (!eof() && peek().type() != Token::Type::Greater) {
template_arguments.append(parse_type(parent));
}
consume(Token::Type::Greater);
return template_arguments;
}
bool Parser::match_variable_declaration()
{
LOG_SCOPE();
save_state();
ScopeGuard state_guard = [this] { load_state(); };
if (!match_type()) {
return false;
}
VERIFY(m_root_node);
(void)parse_type(get_dummy_node());
// Identifier
if (!match_name())
return false;
(void)parse_name(get_dummy_node());
while (!eof() && (peek().type() == Token::Type::LeftBracket)) {
consume(Token::Type::LeftBracket);
if (match(Token::Type::Integer)) {
consume(Token::Type::Integer);
}
if (!match(Token::Type::RightBracket)) {
error("No closing right bracket"sv);
return false;
}
consume(Token::Type::RightBracket);
}
if (match(Token::Type::Equals)) {
consume(Token::Type::Equals);
if (!match_expression()) {
error("initial value of variable is not an expression"sv);
return false;
}
return true;
}
if (match_braced_init_list())
(void)parse_braced_init_list(get_dummy_node());
return match(Token::Type::Semicolon);
}
NonnullRefPtr<VariableDeclaration const> Parser::parse_variable_declaration(ASTNode const& parent, bool expect_semicolon)
{
LOG_SCOPE();
auto var = create_ast_node<VariableDeclaration>(parent, position(), {});
if (!match_variable_declaration()) {
error("unexpected token for variable type"sv);
var->set_end(position());
return var;
}
var->set_type(parse_type(var));
auto name = parse_name(*var);
RefPtr<Expression const> initial_value;
if (match(Token::Type::Equals)) {
consume(Token::Type::Equals);
initial_value = parse_expression(var);
}
if (match_braced_init_list()) {
initial_value = parse_braced_init_list(var);
}
if (expect_semicolon)
consume(Token::Type::Semicolon);
var->set_end(position());
var->set_name(name);
var->set_initial_value(move(initial_value));
return var;
}
NonnullRefPtr<Expression const> Parser::parse_expression(ASTNode const& parent)
{
LOG_SCOPE();
auto expression = parse_primary_expression(parent);
// TODO: remove eof() logic, should still work without it
if (eof() || match(Token::Type::Semicolon)) {
return expression;
}
Vector<NonnullRefPtr<Expression const>> secondary_expressions;
while (match_secondary_expression()) {
// FIXME: Handle operator precedence
expression = parse_secondary_expression(parent, expression);
secondary_expressions.append(expression);
}
for (size_t i = 0; secondary_expressions.size() != 0 && i < secondary_expressions.size() - 1; ++i) {
const_cast<Expression&>(*secondary_expressions[i]).set_parent(secondary_expressions[i + 1]);
}
return expression;
}
bool Parser::match_secondary_expression()
{
auto type = peek().type();
return type == Token::Type::Plus
|| type == Token::Type::PlusEquals
|| type == Token::Type::Minus
|| type == Token::Type::MinusEquals
|| type == Token::Type::Asterisk
|| type == Token::Type::AsteriskEquals
|| type == Token::Type::Percent
|| type == Token::Type::PercentEquals
|| type == Token::Type::Equals
|| type == Token::Type::Greater
|| type == Token::Type::GreaterEquals
|| type == Token::Type::Less
|| type == Token::Type::LessEquals
|| type == Token::Type::Dot
|| type == Token::Type::PlusPlus
|| type == Token::Type::MinusMinus
|| type == Token::Type::And
|| type == Token::Type::AndEquals
|| type == Token::Type::Pipe
|| type == Token::Type::PipeEquals
|| type == Token::Type::Caret
|| type == Token::Type::CaretEquals
|| type == Token::Type::LessLess
|| type == Token::Type::LessLessEquals
|| type == Token::Type::GreaterGreater
|| type == Token::Type::GreaterGreaterEquals
|| type == Token::Type::EqualsEquals
|| type == Token::Type::AndAnd
|| type == Token::Type::PipePipe
|| type == Token::Type::ExclamationMarkEquals
|| type == Token::Type::Arrow
|| type == Token::Type::LeftParen;
}
NonnullRefPtr<Expression const> Parser::parse_primary_expression(ASTNode const& parent)
{
LOG_SCOPE();
// TODO: remove eof() logic, should still work without it
if (eof()) {
auto node = create_ast_node<Identifier>(parent, position(), position());
return node;
}
if (match_unary_expression())
return parse_unary_expression(parent);
if (match_literal()) {
return parse_literal(parent);
}
if (match_cpp_cast_expression())
return parse_cpp_cast_expression(parent);
if (match_c_style_cast_expression())
return parse_c_style_cast_expression(parent);
if (match_sizeof_expression())
return parse_sizeof_expression(parent);
if (match_braced_init_list())
return parse_braced_init_list(parent);
if (match_name()) {
return parse_name(parent);
}
error("could not parse primary expression"sv);
auto token = consume();
return create_ast_node<InvalidExpression>(parent, token.start(), token.end());
}
bool Parser::match_literal()
{
switch (peek().type()) {
case Token::Type::Integer:
return true;
case Token::Type::SingleQuotedString:
return true;
case Token::Type::DoubleQuotedString:
return true;
case Token::Type::Float:
return true;
case Token::Type::Keyword: {
return match_boolean_literal() || peek().text() == "nullptr";
}
default:
return false;
}
}
bool Parser::match_unary_expression()
{
auto type = peek().type();
return type == Token::Type::PlusPlus
|| type == Token::Type::MinusMinus
|| type == Token::Type::ExclamationMark
|| type == Token::Type::Tilde
|| type == Token::Type::Plus
|| type == Token::Type::Minus
|| type == Token::Type::And;
}
NonnullRefPtr<UnaryExpression const> Parser::parse_unary_expression(ASTNode const& parent)
{
auto unary_exp = create_ast_node<UnaryExpression>(parent, position(), {});
auto op_token = consume();
UnaryOp op { UnaryOp::Invalid };
switch (op_token.type()) {
case Token::Type::Minus:
op = UnaryOp::Minus;
break;
case Token::Type::Plus:
op = UnaryOp::Plus;
break;
case Token::Type::ExclamationMark:
op = UnaryOp::Not;
break;
case Token::Type::Tilde:
op = UnaryOp::BitwiseNot;
break;
case Token::Type::PlusPlus:
op = UnaryOp::PlusPlus;
break;
case Token::Type::And:
op = UnaryOp::Address;
break;
default:
break;
}
unary_exp->set_op(op);
auto lhs = parse_expression(*unary_exp);
unary_exp->set_lhs(lhs);
unary_exp->set_end(lhs->end());
return unary_exp;
}
NonnullRefPtr<Expression const> Parser::parse_literal(ASTNode const& parent)
{
switch (peek().type()) {
case Token::Type::Integer: {
auto token = consume();
return create_ast_node<NumericLiteral>(parent, token.start(), token.end(), text_of_token(token));
}
case Token::Type::SingleQuotedString:
[[fallthrough]];
case Token::Type::DoubleQuotedString:
return parse_string_literal(parent);
case Token::Type::Keyword: {
if (match_boolean_literal())
return parse_boolean_literal(parent);
if (peek().text() == "nullptr") {
auto token = consume();
return create_ast_node<NullPointerLiteral>(parent, token.start(), token.end());
}
[[fallthrough]];
}
default: {
error("could not parse literal"sv);
auto token = consume();
return create_ast_node<InvalidExpression>(parent, token.start(), token.end());
}
}
}
NonnullRefPtr<Expression const> Parser::parse_secondary_expression(ASTNode const& parent, NonnullRefPtr<Expression const> lhs)
{
LOG_SCOPE();
switch (peek().type()) {
case Token::Type::Plus:
return parse_binary_expression(parent, lhs, BinaryOp::Addition);
case Token::Type::Less:
return parse_binary_expression(parent, lhs, BinaryOp::LessThan);
case Token::Type::EqualsEquals:
return parse_binary_expression(parent, lhs, BinaryOp::EqualsEquals);
case Token::Type::ExclamationMarkEquals:
return parse_binary_expression(parent, lhs, BinaryOp::NotEqual);
case Token::Type::And:
return parse_binary_expression(parent, lhs, BinaryOp::BitwiseAnd);
case Token::Type::AndAnd:
return parse_binary_expression(parent, lhs, BinaryOp::LogicalAnd);
case Token::Type::Pipe:
return parse_binary_expression(parent, lhs, BinaryOp::BitwiseOr);
case Token::Type::PipePipe:
return parse_binary_expression(parent, lhs, BinaryOp::LogicalOr);
case Token::Type::Arrow:
return parse_binary_expression(parent, lhs, BinaryOp::Arrow);
case Token::Type::Equals:
return parse_assignment_expression(parent, lhs, AssignmentOp::Assignment);
case Token::Type::Dot: {
consume();
auto exp = create_ast_node<MemberExpression>(parent, lhs->start(), {});
const_cast<Expression&>(*lhs).set_parent(*exp);
exp->set_object(move(lhs));
auto identifier_token = consume(Token::Type::Identifier);
exp->set_property(create_ast_node<Identifier>(*exp, identifier_token.start(), identifier_token.end(), identifier_token.text()));
exp->set_end(position());
return exp;
}
case Token::Type::LeftParen: {
consume();
auto func = create_ast_node<FunctionCall>(parent, lhs->start(), {});
const_cast<Expression&>(*lhs).set_parent(*func);
func->set_callee(move(lhs));
while (peek().type() != Token::Type::RightParen && !eof()) {
func->add_argument(parse_expression(*func));
if (peek().type() == Token::Type::Comma)
consume(Token::Type::Comma);
}
consume(Token::Type::RightParen);
func->set_end(position());
return func;
}
default: {
error(DeprecatedString::formatted("unexpected operator for expression. operator: {}", peek().to_deprecated_string()));
auto token = consume();
return create_ast_node<InvalidExpression>(parent, token.start(), token.end());
}
}
}
NonnullRefPtr<BinaryExpression const> Parser::parse_binary_expression(ASTNode const& parent, NonnullRefPtr<Expression const> lhs, BinaryOp op)
{
consume(); // Operator
auto exp = create_ast_node<BinaryExpression>(parent, lhs->start(), {});
const_cast<Expression&>(*lhs).set_parent(*exp);
exp->set_op(op);
exp->set_lhs(move(lhs));
auto rhs = parse_expression(exp);
exp->set_end(rhs->end());
exp->set_rhs(move(rhs));
return exp;
}
NonnullRefPtr<AssignmentExpression const> Parser::parse_assignment_expression(ASTNode const& parent, NonnullRefPtr<Expression const> lhs, AssignmentOp op)
{
consume(); // Operator
auto exp = create_ast_node<AssignmentExpression>(parent, lhs->start(), {});
const_cast<Expression&>(*lhs).set_parent(*exp);
exp->set_op(op);
exp->set_lhs(move(lhs));
auto rhs = parse_expression(exp);
exp->set_end(rhs->end());
exp->set_rhs(move(rhs));
return exp;
}
Optional<Parser::DeclarationType> Parser::match_declaration_in_translation_unit()
{
if (match_function_declaration())
return DeclarationType::Function;
if (match_enum_declaration())
return DeclarationType::Enum;
if (match_class_declaration())
return DeclarationType::Class;
if (match_namespace_declaration())
return DeclarationType::Namespace;
if (match_variable_declaration())
return DeclarationType::Variable;
if (match_using_namespace_declaration())
return DeclarationType::UsingNamespace;
return {};
}
Optional<Parser::DeclarationType> Parser::match_class_member(StringView class_name)
{
if (match_function_declaration())
return DeclarationType::Function;
if (match_enum_declaration())
return DeclarationType::Enum;
if (match_class_declaration())
return DeclarationType::Class;
if (match_variable_declaration())
return DeclarationType::Variable;
if (match_constructor(class_name))
return DeclarationType::Constructor;
if (match_destructor(class_name))
return DeclarationType::Destructor;
return {};
}
bool Parser::match_enum_declaration()
{
save_state();
ScopeGuard state_guard = [this] { load_state(); };
if (!match_keyword("enum"))
return false;
consume(Token::Type::Keyword);
if (match_keyword("class"))
consume(Token::Type::Keyword);
if (!match(Token::Type::Identifier))
return false;
consume(Token::Type::Identifier);
return match(Token::Type::LeftCurly);
}
bool Parser::match_class_declaration()
{
save_state();
ScopeGuard state_guard = [this] { load_state(); };
if (!match_keyword("struct") && !match_keyword("class"))
return false;
consume(Token::Type::Keyword);
if (!match(Token::Type::Identifier))
return false;
consume(Token::Type::Identifier);
auto has_final = match_keyword("final");
if (peek(has_final ? 1 : 0).type() == Token::Type::Colon) {
if (has_final)
consume();
do {
consume();
while (match_keyword("private") || match_keyword("public") || match_keyword("protected") || match_keyword("virtual"))
consume();
if (!match_name())
return false;
(void)parse_name(get_dummy_node());
} while (peek().type() == Token::Type::Comma);
}
return match(Token::Type::LeftCurly);
}
bool Parser::match_namespace_declaration()
{
return match_keyword("namespace");
}
bool Parser::match_function_declaration()
{
save_state();
ScopeGuard state_guard = [this] { load_state(); };
parse_function_qualifiers();
if (!match_type())
return false;
VERIFY(m_root_node);
(void)parse_type(get_dummy_node());
if (!match_name())
return false;
(void)parse_name(get_dummy_node());
if (!peek(Token::Type::LeftParen).has_value())
return false;
consume();
while (consume().type() != Token::Type::RightParen && !eof()) { };
while (match_keyword("const") || match_keyword("override"))
consume();
if (peek(Token::Type::Semicolon).has_value() || peek(Token::Type::LeftCurly).has_value())
return true;
if (match_attribute_specification()) {
consume_attribute_specification();
return peek(Token::Type::Semicolon).has_value();
}
return false;
}
Optional<Vector<NonnullRefPtr<Parameter const>>> Parser::parse_parameter_list(ASTNode const& parent)
{
LOG_SCOPE();
Vector<NonnullRefPtr<Parameter const>> parameters;
while (peek().type() != Token::Type::RightParen && !eof()) {
if (match_ellipsis()) {
auto param = create_ast_node<Parameter>(parent, position(), {}, RefPtr<Name> {});
consume(Token::Type::Dot);
consume(Token::Type::Dot);
auto last_dot = consume(Token::Type::Dot);
param->set_ellipsis(true);
param->set_end(last_dot.end());
parameters.append(move(param));
} else {
auto type = parse_type(parent);
RefPtr<Name const> name;
if (match_name()) {
name = parse_name(parent);
}
auto param = create_ast_node<Parameter>(parent, type->start(), !name.is_null() ? name->end() : type->end(), name);
const_cast<Type&>(*type).set_parent(*param.ptr());
param->set_type(move(type));
parameters.append(move(param));
}
if (peek(Token::Type::Comma).has_value())
consume(Token::Type::Comma);
}
return parameters;
}
bool Parser::match_comment()
{
return match(Token::Type::Comment);
}
bool Parser::match_whitespace()
{
return match(Token::Type::Whitespace);
}
bool Parser::match_preprocessor()
{
return match(Token::Type::PreprocessorStatement) || match(Token::Type::IncludeStatement);
}
void Parser::consume_preprocessor()
{
LOG_SCOPE();
switch (peek().type()) {
case Token::Type::PreprocessorStatement:
consume();
break;
case Token::Type::IncludeStatement:
consume();
consume(Token::Type::IncludePath);
break;
default:
error("unexpected token while parsing preprocessor statement"sv);
consume();
}
}
Optional<Token> Parser::consume_whitespace()
{
LOG_SCOPE();
return consume(Token::Type::Whitespace);
}
Token Parser::consume(Token::Type type)
{
auto token = consume();
if (token.type() != type)
error(DeprecatedString::formatted("expected {} at {}:{}, found: {}", Token::type_to_string(type), token.start().line, token.start().column, Token::type_to_string(token.type())));
return token;
}
bool Parser::match(Token::Type type)
{
return peek().type() == type;
}
Token Parser::consume()
{
if (eof()) {
error("C++ Parser: out of tokens"sv);
return { Token::Type::EOF_TOKEN, position(), position(), {} };
}
return m_tokens[m_state.token_index++];
}
Token Parser::peek(size_t offset) const
{
if (m_state.token_index + offset >= m_tokens.size())
return { Token::Type::EOF_TOKEN, position(), position(), {} };
return m_tokens[m_state.token_index + offset];
}
Optional<Token> Parser::peek(Token::Type type) const
{
auto token = peek();
if (token.type() == type)
return token;
return {};
}
void Parser::save_state()
{
m_saved_states.append(m_state);
m_state.state_nodes.clear();
}
void Parser::load_state()
{
m_state = m_saved_states.take_last();
}
StringView Parser::text_of_token(Cpp::Token const& token) const
{
return token.text();
}
DeprecatedString Parser::text_of_node(ASTNode const& node) const
{
return text_in_range(node.start(), node.end());
}
DeprecatedString Parser::text_in_range(Position start, Position end) const
{
StringBuilder builder;
for (auto token : tokens_in_range(start, end)) {
builder.append(token.text());
}
return builder.to_deprecated_string();
}
Vector<Token> Parser::tokens_in_range(Position start, Position end) const
{
auto start_token_index = index_of_token_at(start);
auto end_node_index = index_of_token_at(end);
VERIFY(start_token_index.has_value());
VERIFY(end_node_index.has_value());
Vector<Token> tokens;
for (size_t i = start_token_index.value(); i <= end_node_index.value(); ++i) {
tokens.append(m_tokens[i]);
}
return tokens;
}
void Parser::error(StringView message)
{
LOG_SCOPE();
if (!m_saved_states.is_empty())
return;
if (message.is_null() || message.is_empty())
message = "<empty>"sv;
DeprecatedString formatted_message;
if (m_state.token_index >= m_tokens.size()) {
formatted_message = DeprecatedString::formatted("C++ Parsed error on EOF.{}", message);
} else {
formatted_message = DeprecatedString::formatted("C++ Parser error: {}. token: {} ({}:{})",
message,
m_state.token_index < m_tokens.size() ? text_of_token(m_tokens[m_state.token_index]) : "EOF"sv,
m_tokens[m_state.token_index].start().line,
m_tokens[m_state.token_index].start().column);
}
m_errors.append(formatted_message);
}
bool Parser::match_expression()
{
return match_literal()
|| match_name()
|| match_unary_expression()
|| match_cpp_cast_expression()
|| match_c_style_cast_expression()
|| match_sizeof_expression()
|| match_braced_init_list();
}
bool Parser::eof() const
{
return m_state.token_index >= m_tokens.size();
}
Position Parser::position() const
{
if (m_tokens.is_empty())
return {};
if (eof())
return m_tokens.last().end();
return peek().start();
}
Position Parser::previous_token_end() const
{
if (m_state.token_index < 1)
return {};
return m_tokens[m_state.token_index - 1].end();
}
RefPtr<ASTNode const> Parser::node_at(Position pos) const
{
VERIFY(m_saved_states.is_empty());
auto index = index_of_node_at(pos);
if (!index.has_value())
return nullptr;
return m_nodes[index.value()];
}
Optional<size_t> Parser::index_of_node_at(Position pos) const
{
VERIFY(!m_tokens.is_empty());
VERIFY(m_saved_states.is_empty());
Optional<size_t> match_node_index;
auto node_span = [](ASTNode const& node) {
VERIFY(node.end().line >= node.start().line);
VERIFY((node.end().line > node.start().line) || (node.end().column >= node.start().column));
return Position { node.end().line - node.start().line, node.start().line != node.end().line ? 0 : node.end().column - node.start().column };
};
for (size_t node_index = 0; node_index < m_nodes.size(); ++node_index) {
auto& node = m_nodes[node_index];
if (node->start() > pos || node->end() < pos)
continue;
if (!match_node_index.has_value() || (node_span(node) <= node_span(m_nodes[match_node_index.value()])))
match_node_index = node_index;
}
return match_node_index;
}
Optional<Token> Parser::token_at(Position pos) const
{
auto index = index_of_token_at(pos);
if (!index.has_value())
return {};
return m_tokens[index.value()];
}
Optional<size_t> Parser::index_of_token_at(Position pos) const
{
for (size_t token_index = 0; token_index < m_tokens.size(); ++token_index) {
auto token = m_tokens[token_index];
if (token.start() > pos || token.end() < pos)
continue;
return token_index;
}
return {};
}
void Parser::print_tokens() const
{
for (auto& token : m_tokens) {
outln("{}", token.to_deprecated_string());
}
}
Vector<CodeComprehension::TodoEntry> Parser::get_todo_entries() const
{
Vector<CodeComprehension::TodoEntry> ret;
for (auto& token : m_tokens) {
if (token.type() == Token::Type::Comment) {
if (token.text().contains("TODO"sv) || token.text().contains("FIXME"sv)) {
ret.append({ token.text(), m_filename, token.start().line, token.start().column });
}
}
}
return ret;
}
NonnullRefPtr<StringLiteral const> Parser::parse_string_literal(ASTNode const& parent)
{
LOG_SCOPE();
Optional<size_t> start_token_index;
Optional<size_t> end_token_index;
while (!eof()) {
auto token = peek();
if (token.type() != Token::Type::DoubleQuotedString && token.type() != Token::Type::SingleQuotedString && token.type() != Token::Type::EscapeSequence) {
VERIFY(start_token_index.has_value());
end_token_index = m_state.token_index - 1;
break;
}
if (!start_token_index.has_value())
start_token_index = m_state.token_index;
consume();
}
// String was not terminated
if (!end_token_index.has_value()) {
end_token_index = m_tokens.size() - 1;
}
VERIFY(start_token_index.has_value());
VERIFY(end_token_index.has_value());
Token start_token = m_tokens[start_token_index.value()];
Token end_token = m_tokens[end_token_index.value()];
auto text = text_in_range(start_token.start(), end_token.end());
auto string_literal = create_ast_node<StringLiteral>(parent, start_token.start(), end_token.end());
string_literal->set_value(move(text));
return string_literal;
}
NonnullRefPtr<ReturnStatement const> Parser::parse_return_statement(ASTNode const& parent)
{
LOG_SCOPE();
auto return_statement = create_ast_node<ReturnStatement>(parent, position(), {});
consume(Token::Type::Keyword);
if (!peek(Token::Type::Semicolon).has_value()) {
return_statement->set_value(parse_expression(*return_statement));
}
return_statement->set_end(position());
return return_statement;
}
NonnullRefPtr<EnumDeclaration const> Parser::parse_enum_declaration(ASTNode const& parent)
{
LOG_SCOPE();
auto enum_decl = create_ast_node<EnumDeclaration>(parent, position(), {});
consume_keyword("enum");
if (match_keyword("class")) {
consume(Token::Type::Keyword);
enum_decl->set_type(EnumDeclaration::Type::EnumClass);
} else {
enum_decl->set_type(EnumDeclaration::Type::RegularEnum);
}
auto name = parse_name(*enum_decl);
enum_decl->set_name(name);
consume(Token::Type::LeftCurly);
while (!eof() && peek().type() != Token::Type::RightCurly) {
auto name = text_of_token(consume(Token::Type::Identifier));
RefPtr<Expression const> value;
if (peek().type() == Token::Type::Equals) {
consume();
value = parse_expression(enum_decl);
}
enum_decl->add_entry(name, move(value));
if (peek().type() != Token::Type::Comma) {
break;
}
consume(Token::Type::Comma);
}
consume(Token::Type::RightCurly);
consume(Token::Type::Semicolon);
enum_decl->set_end(position());
return enum_decl;
}
Token Parser::consume_keyword(DeprecatedString const& keyword)
{
auto token = consume();
if (token.type() != Token::Type::Keyword) {
error(DeprecatedString::formatted("unexpected token: {}, expected Keyword", token.to_deprecated_string()));
return token;
}
if (text_of_token(token) != keyword) {
error(DeprecatedString::formatted("unexpected keyword: {}, expected {}", text_of_token(token), keyword));
return token;
}
return token;
}
bool Parser::match_keyword(DeprecatedString const& keyword)
{
auto token = peek();
if (token.type() != Token::Type::Keyword) {
return false;
}
if (text_of_token(token) != keyword) {
return false;
}
return true;
}
NonnullRefPtr<StructOrClassDeclaration const> Parser::parse_class_declaration(ASTNode const& parent)
{
LOG_SCOPE();
auto type_token = consume(Token::Type::Keyword);
StructOrClassDeclaration::Type type {};
if (type_token.text() == "struct")
type = StructOrClassDeclaration::Type::Struct;
if (type_token.text() == "class")
type = StructOrClassDeclaration::Type::Class;
auto decl = create_ast_node<StructOrClassDeclaration>(parent, position(), {}, type);
auto name = parse_name(*decl);
decl->set_name(name);
auto has_final = match_keyword("final");
Vector<NonnullRefPtr<Name const>> baseclasses;
// FIXME: Don't ignore this.
if (peek(has_final ? 1 : 0).type() == Token::Type::Colon) {
if (has_final)
consume();
do {
consume();
while (match_keyword("private") || match_keyword("public") || match_keyword("protected") || match_keyword("virtual"))
consume();
baseclasses.append(parse_name(*decl));
} while (peek().type() == Token::Type::Comma);
}
decl->set_baseclasses(move(baseclasses));
consume(Token::Type::LeftCurly);
while (!eof() && peek().type() != Token::Type::RightCurly) {
decl->set_members(parse_class_members(*decl));
}
consume(Token::Type::RightCurly);
consume(Token::Type::Semicolon);
decl->set_end(position());
return decl;
}
NonnullRefPtr<BooleanLiteral const> Parser::parse_boolean_literal(ASTNode const& parent)
{
LOG_SCOPE();
auto token = consume(Token::Type::Keyword);
auto text = text_of_token(token);
// text == "true" || text == "false";
bool value = (text == "true");
return create_ast_node<BooleanLiteral>(parent, token.start(), token.end(), value);
}
bool Parser::match_boolean_literal()
{
auto token = peek();
if (token.type() != Token::Type::Keyword)
return false;
auto text = text_of_token(token);
return text == "true" || text == "false";
}
NonnullRefPtr<Type const> Parser::parse_type(ASTNode const& parent)
{
LOG_SCOPE();
if (!match_named_type()) {
error("expected named named_type"sv);
auto token = consume();
return create_ast_node<NamedType>(parent, token.start(), token.end());
}
auto named_type = create_ast_node<NamedType>(parent, position(), {});
auto qualifiers = parse_type_qualifiers();
named_type->set_qualifiers(move(qualifiers));
if (match_keyword("auto")) {
consume(Token::Type::Keyword);
named_type->set_auto(true);
auto original_qualifiers = named_type->qualifiers();
original_qualifiers.extend(parse_type_qualifiers());
named_type->set_qualifiers(move(original_qualifiers));
named_type->set_end(position());
return named_type;
}
if (match_keyword("struct")) {
consume(Token::Type::Keyword); // Consume struct prefix
}
if (!match_name()) {
named_type->set_end(position());
error(DeprecatedString::formatted("expected name instead of: {}", peek().text()));
return named_type;
}
named_type->set_name(parse_name(*named_type));
auto original_qualifiers = named_type->qualifiers();
original_qualifiers.extend(parse_type_qualifiers());
named_type->set_qualifiers(move(original_qualifiers));
NonnullRefPtr<Type> type = named_type;
while (!eof() && peek().type() == Token::Type::Asterisk) {
type->set_end(position());
auto asterisk = consume();
auto ptr = create_ast_node<Pointer>(parent, type->start(), asterisk.end());
type->set_parent(*ptr);
ptr->set_pointee(type);
ptr->set_qualifiers(parse_type_qualifiers());
ptr->set_end(position());
type = ptr;
}
if (!eof() && (peek().type() == Token::Type::And || peek().type() == Token::Type::AndAnd)) {
type->set_end(position());
auto ref_token = consume();
auto ref = create_ast_node<Reference>(parent, type->start(), ref_token.end(), ref_token.type() == Token::Type::And ? Reference::Kind::Lvalue : Reference::Kind::Rvalue);
type->set_parent(*ref);
ref->set_referenced_type(type);
ref->set_end(position());
type = ref;
}
if (peek().type() == Token::Type::LeftParen) {
type->set_end(previous_token_end());
consume();
auto fn_type = create_ast_node<FunctionType>(parent, type->start(), position());
fn_type->set_return_type(*type);
type->set_parent(*fn_type);
if (auto parameters = parse_parameter_list(*type); parameters.has_value())
fn_type->set_parameters(parameters.release_value());
consume(Token::Type::RightParen);
type = fn_type;
}
type->set_end(previous_token_end());
return type;
}
NonnullRefPtr<ForStatement const> Parser::parse_for_statement(ASTNode const& parent)
{
LOG_SCOPE();
auto for_statement = create_ast_node<ForStatement>(parent, position(), {});
consume(Token::Type::Keyword);
consume(Token::Type::LeftParen);
if (peek().type() != Token::Type::Semicolon)
for_statement->set_init(parse_variable_declaration(*for_statement, false));
consume(Token::Type::Semicolon);
if (peek().type() != Token::Type::Semicolon)
for_statement->set_test(parse_expression(*for_statement));
consume(Token::Type::Semicolon);
if (peek().type() != Token::Type::RightParen)
for_statement->set_update(parse_expression(*for_statement));
consume(Token::Type::RightParen);
for_statement->set_body(parse_statement(*for_statement));
for_statement->set_end(for_statement->body()->end());
return for_statement;
}
NonnullRefPtr<IfStatement const> Parser::parse_if_statement(ASTNode const& parent)
{
LOG_SCOPE();
auto if_statement = create_ast_node<IfStatement>(parent, position(), {});
consume(Token::Type::Keyword);
consume(Token::Type::LeftParen);
if_statement->set_predicate(parse_expression(*if_statement));
consume(Token::Type::RightParen);
if_statement->set_then_statement(parse_statement(*if_statement));
if (match_keyword("else")) {
consume(Token::Type::Keyword);
if_statement->set_else_statement(parse_statement(*if_statement));
if_statement->set_end(if_statement->else_statement()->end());
} else {
if_statement->set_end(if_statement->then_statement()->end());
}
return if_statement;
}
Vector<StringView> Parser::parse_type_qualifiers()
{
LOG_SCOPE();
Vector<StringView> qualifiers;
while (!eof()) {
auto token = peek();
if (token.type() != Token::Type::Keyword)
break;
auto text = text_of_token(token);
if (text == "static" || text == "const" || text == "extern") {
qualifiers.append(text);
consume();
} else {
break;
}
}
return qualifiers;
}
Vector<StringView> Parser::parse_function_qualifiers()
{
LOG_SCOPE();
Vector<StringView> qualifiers;
while (!eof()) {
auto token = peek();
if (token.type() != Token::Type::Keyword)
break;
auto text = text_of_token(token);
if (text == "static" || text == "inline" || text == "extern" || text == "virtual") {
qualifiers.append(text);
consume();
} else {
break;
}
}
return qualifiers;
}
bool Parser::match_attribute_specification()
{
return text_of_token(peek()) == "__attribute__";
}
void Parser::consume_attribute_specification()
{
consume(); // __attribute__
consume(Token::Type::LeftParen);
size_t left_count = 1;
while (!eof()) {
auto token = consume();
if (token.type() == Token::Type::LeftParen) {
++left_count;
}
if (token.type() == Token::Type::RightParen) {
--left_count;
}
if (left_count == 0)
return;
}
}
bool Parser::match_ellipsis()
{
if (m_state.token_index > m_tokens.size() - 3)
return false;
return peek().type() == Token::Type::Dot && peek(1).type() == Token::Type::Dot && peek(2).type() == Token::Type::Dot;
}
NonnullRefPtr<NamespaceDeclaration const> Parser::parse_namespace_declaration(ASTNode const& parent, bool is_nested_namespace)
{
auto namespace_decl = create_ast_node<NamespaceDeclaration>(parent, position(), {});
if (!is_nested_namespace)
consume(Token::Type::Keyword);
auto name = parse_name(*namespace_decl);
namespace_decl->set_name(name);
if (peek().type() == Token::Type::ColonColon) {
consume(Token::Type::ColonColon);
namespace_decl->add_declaration(parse_namespace_declaration(*namespace_decl, true));
namespace_decl->set_end(position());
return namespace_decl;
}
consume(Token::Type::LeftCurly);
while (!eof() && peek().type() != Token::Type::RightCurly) {
auto declaration = parse_single_declaration_in_translation_unit(*namespace_decl);
if (declaration) {
namespace_decl->add_declaration(declaration.release_nonnull());
} else {
error("unexpected token"sv);
consume();
}
}
consume(Token::Type::RightCurly);
namespace_decl->set_end(position());
return namespace_decl;
}
bool Parser::match_name()
{
auto type = peek().type();
return type == Token::Type::Identifier || type == Token::Type::KnownType;
}
NonnullRefPtr<Name const> Parser::parse_name(ASTNode const& parent)
{
LOG_SCOPE();
NonnullRefPtr<Name> name_node = create_ast_node<Name>(parent, position(), {});
while (!eof() && (peek().type() == Token::Type::Identifier || peek().type() == Token::Type::KnownType) && peek(1).type() == Token::Type::ColonColon) {
auto token = consume();
name_node->add_to_scope(create_ast_node<Identifier>(*name_node, token.start(), token.end(), token.text()));
consume(Token::Type::ColonColon);
}
if (peek().type() == Token::Type::Identifier || peek().type() == Token::Type::KnownType) {
auto token = consume();
name_node->set_name(create_ast_node<Identifier>(*name_node, token.start(), token.end(), token.text()));
} else {
name_node->set_end(position());
return name_node;
}
bool is_templatized = false;
if (match_template_arguments()) {
is_templatized = true;
consume(Token::Type::Less);
NonnullRefPtr<TemplatizedName> templatized_name = create_ast_node<TemplatizedName>(parent, name_node->start(), {});
templatized_name->set_name(name_node->name());
templatized_name->set_scope(name_node->scope());
name_node->set_end(position());
name_node = templatized_name;
while (peek().type() != Token::Type::Greater && !eof()) {
templatized_name->add_template_argument(parse_type(*templatized_name));
if (peek().type() == Token::Type::Comma)
consume(Token::Type::Comma);
}
consume(Token::Type::Greater);
}
if (!is_templatized && (peek().type() == Token::Type::LeftBracket)) {
NonnullRefPtr<SizedName> sized_name = create_ast_node<SizedName>(parent, name_node->start(), {});
sized_name->set_name(name_node->name());
sized_name->set_scope(name_node->scope());
while (peek().type() == Token::Type::LeftBracket) {
consume(Token::Type::LeftBracket);
StringView size = "0"sv;
if (peek().type() == Token::Type::Integer) {
auto token = consume(Token::Type::Integer);
size = token.text();
}
sized_name->append_dimension(size);
consume(Token::Type::RightBracket);
}
name_node->set_end(position());
name_node = sized_name;
}
name_node->set_end(previous_token_end());
return name_node;
}
bool Parser::match_cpp_cast_expression()
{
save_state();
ScopeGuard state_guard = [this] { load_state(); };
auto token = consume();
if (token.type() != Token::Type::Keyword)
return false;
auto text = token.text();
if (text == "static_cast" || text == "reinterpret_cast" || text == "dynamic_cast" || text == "const_cast")
return true;
return false;
}
bool Parser::match_c_style_cast_expression()
{
save_state();
ScopeGuard state_guard = [this] { load_state(); };
if (consume().type() != Token::Type::LeftParen)
return false;
if (!match_type())
return false;
(void)parse_type(get_dummy_node());
if (consume().type() != Token::Type::RightParen)
return false;
if (!match_expression())
return false;
return true;
}
NonnullRefPtr<CStyleCastExpression const> Parser::parse_c_style_cast_expression(ASTNode const& parent)
{
auto parse_exp = create_ast_node<CStyleCastExpression>(parent, position(), {});
consume(Token::Type::LeftParen);
parse_exp->set_type(parse_type(*parse_exp));
consume(Token::Type::RightParen);
parse_exp->set_expression(parse_expression(*parse_exp));
parse_exp->set_end(position());
return parse_exp;
}
NonnullRefPtr<CppCastExpression const> Parser::parse_cpp_cast_expression(ASTNode const& parent)
{
auto cast_expression = create_ast_node<CppCastExpression>(parent, position(), {});
cast_expression->set_cast_type(consume(Token::Type::Keyword).text());
consume(Token::Type::Less);
cast_expression->set_type(parse_type(*cast_expression));
consume(Token::Type::Greater);
consume(Token::Type::LeftParen);
cast_expression->set_expression(parse_expression(*cast_expression));
consume(Token::Type::RightParen);
cast_expression->set_end(position());
return cast_expression;
}
bool Parser::match_sizeof_expression()
{
return match_keyword("sizeof");
}
NonnullRefPtr<SizeofExpression const> Parser::parse_sizeof_expression(ASTNode const& parent)
{
auto exp = create_ast_node<SizeofExpression>(parent, position(), {});
consume(Token::Type::Keyword);
consume(Token::Type::LeftParen);
exp->set_type(parse_type(parent));
consume(Token::Type::RightParen);
exp->set_end(position());
return exp;
}
bool Parser::match_braced_init_list()
{
return match(Token::Type::LeftCurly);
}
NonnullRefPtr<BracedInitList const> Parser::parse_braced_init_list(ASTNode const& parent)
{
auto init_list = create_ast_node<BracedInitList>(parent, position(), {});
consume(Token::Type::LeftCurly);
while (!eof() && peek().type() != Token::Type::RightCurly) {
init_list->add_expression(parse_expression(*init_list));
if (peek().type() == Token::Type::Comma)
consume(Token::Type::Comma);
}
consume(Token::Type::RightCurly);
init_list->set_end(position());
return init_list;
}
Vector<NonnullRefPtr<Declaration const>> Parser::parse_class_members(StructOrClassDeclaration& parent)
{
auto class_name = parent.full_name();
Vector<NonnullRefPtr<Declaration const>> members;
while (!eof() && peek().type() != Token::Type::RightCurly) {
if (match_access_specifier())
consume_access_specifier(); // FIXME: Do not ignore access specifiers
auto member_type = match_class_member(class_name);
if (member_type.has_value()) {
members.append(parse_declaration(parent, member_type.value()));
} else {
error("Expected class member"sv);
consume();
}
}
return members;
}
bool Parser::match_access_specifier()
{
if (peek(1).type() != Token::Type::Colon)
return false;
return match_keyword("private") || match_keyword("protected") || match_keyword("public");
}
void Parser::consume_access_specifier()
{
consume(Token::Type::Keyword);
consume(Token::Type::Colon);
}
bool Parser::match_constructor(StringView class_name)
{
save_state();
ScopeGuard state_guard = [this] { load_state(); };
auto token = consume();
if (token.text() != class_name)
return false;
if (!peek(Token::Type::LeftParen).has_value())
return false;
consume();
while (consume().type() != Token::Type::RightParen && !eof()) { };
return (peek(Token::Type::Semicolon).has_value() || peek(Token::Type::LeftCurly).has_value());
}
bool Parser::match_destructor(StringView class_name)
{
save_state();
ScopeGuard state_guard = [this] { load_state(); };
if (match_keyword("virtual"))
consume();
if (!match(Token::Type::Tilde))
return false;
consume();
auto token = peek();
if (token.text() != class_name)
return false;
consume();
if (!peek(Token::Type::LeftParen).has_value())
return false;
consume();
while (consume().type() != Token::Type::RightParen && !eof()) { };
if (match_keyword("override"))
consume();
return (peek(Token::Type::Semicolon).has_value() || peek(Token::Type::LeftCurly).has_value());
}
void Parser::parse_constructor_or_destructor_impl(FunctionDeclaration& func, CtorOrDtor type)
{
if (type == CtorOrDtor::Dtor) {
if (match_keyword("virtual"))
func.set_qualifiers({ consume().text() });
consume(Token::Type::Tilde);
}
auto name = parse_name(func);
func.set_name(name);
consume(Token::Type::LeftParen);
auto parameters = parse_parameter_list(func);
if (parameters.has_value()) {
if (type == CtorOrDtor::Dtor && !parameters->is_empty())
error("Destructor declaration that takes parameters"sv);
else
func.set_parameters(parameters.value());
}
consume(Token::Type::RightParen);
if (type == CtorOrDtor::Dtor && match_keyword("override"))
consume();
// TODO: Parse =default, =delete.
RefPtr<FunctionDefinition const> body;
Position ctor_end {};
if (peek(Token::Type::LeftCurly).has_value()) {
body = parse_function_definition(func);
ctor_end = body->end();
} else {
ctor_end = position();
if (match_attribute_specification())
consume_attribute_specification(); // we don't use the value of __attribute__
consume(Token::Type::Semicolon);
}
func.set_definition(move(body));
func.set_end(ctor_end);
}
NonnullRefPtr<Constructor const> Parser::parse_constructor(ASTNode const& parent)
{
auto ctor = create_ast_node<Constructor>(parent, position(), {});
parse_constructor_or_destructor_impl(*ctor, CtorOrDtor::Ctor);
return ctor;
}
NonnullRefPtr<Destructor const> Parser::parse_destructor(ASTNode const& parent)
{
auto ctor = create_ast_node<Destructor>(parent, position(), {});
parse_constructor_or_destructor_impl(*ctor, CtorOrDtor::Dtor);
return ctor;
}
bool Parser::match_using_namespace_declaration()
{
save_state();
ScopeGuard state_guard = [this] { load_state(); };
if (!match_keyword("using"))
return false;
consume();
if (!match_keyword("namespace"))
return false;
consume();
return true;
}
NonnullRefPtr<UsingNamespaceDeclaration const> Parser::parse_using_namespace_declaration(ASTNode const& parent)
{
auto decl = create_ast_node<UsingNamespaceDeclaration>(parent, position(), {});
consume_keyword("using");
consume_keyword("namespace");
auto name = parse_name(*decl);
decl->set_end(position());
consume(Token::Type::Semicolon);
decl->set_name(name);
return decl;
}
}