/* * Copyright (c) 2020, Stephan Unverwerth * Copyright (c) 2020, Linus Groh * All rights reserved. * * Redistribution and use in source and binary forms, with or without * modification, are permitted provided that the following conditions are met: * * 1. Redistributions of source code must retain the above copyright notice, this * list of conditions and the following disclaimer. * * 2. Redistributions in binary form must reproduce the above copyright notice, * this list of conditions and the following disclaimer in the documentation * and/or other materials provided with the distribution. * * THIS SOFTWARE IS PROVIDED BY THE COPYRIGHT HOLDERS AND CONTRIBUTORS "AS IS" * AND ANY EXPRESS OR IMPLIED WARRANTIES, INCLUDING, BUT NOT LIMITED TO, THE * IMPLIED WARRANTIES OF MERCHANTABILITY AND FITNESS FOR A PARTICULAR PURPOSE ARE * DISCLAIMED. IN NO EVENT SHALL THE COPYRIGHT HOLDER OR CONTRIBUTORS BE LIABLE * FOR ANY DIRECT, INDIRECT, INCIDENTAL, SPECIAL, EXEMPLARY, OR CONSEQUENTIAL * DAMAGES (INCLUDING, BUT NOT LIMITED TO, PROCUREMENT OF SUBSTITUTE GOODS OR * SERVICES; LOSS OF USE, DATA, OR PROFITS; OR BUSINESS INTERRUPTION) HOWEVER * CAUSED AND ON ANY THEORY OF LIABILITY, WHETHER IN CONTRACT, STRICT LIABILITY, * OR TORT (INCLUDING NEGLIGENCE OR OTHERWISE) ARISING IN ANY WAY OUT OF THE USE * OF THIS SOFTWARE, EVEN IF ADVISED OF THE POSSIBILITY OF SUCH DAMAGE. */ #include "Parser.h" #include #include #include namespace JS { class ScopePusher { public: enum Type { Var = 1, Let = 2, Function = 3, }; ScopePusher(Parser& parser, unsigned mask) : m_parser(parser) , m_mask(mask) { if (m_mask & Var) m_parser.m_parser_state.m_var_scopes.append(NonnullRefPtrVector()); if (m_mask & Let) m_parser.m_parser_state.m_let_scopes.append(NonnullRefPtrVector()); if (m_mask & Function) m_parser.m_parser_state.m_function_scopes.append(NonnullRefPtrVector()); } ~ScopePusher() { if (m_mask & Var) m_parser.m_parser_state.m_var_scopes.take_last(); if (m_mask & Let) m_parser.m_parser_state.m_let_scopes.take_last(); if (m_mask & Function) m_parser.m_parser_state.m_function_scopes.take_last(); } Parser& m_parser; unsigned m_mask { 0 }; }; static HashMap g_operator_precedence; Parser::ParserState::ParserState(Lexer lexer) : m_lexer(move(lexer)) , m_current_token(m_lexer.next()) { } Parser::Parser(Lexer lexer) : m_parser_state(move(lexer)) { if (g_operator_precedence.is_empty()) { // https://developer.mozilla.org/en-US/docs/Web/JavaScript/Reference/Operators/Operator_Precedence g_operator_precedence.set(TokenType::Period, 20); g_operator_precedence.set(TokenType::BracketOpen, 20); g_operator_precedence.set(TokenType::ParenOpen, 20); g_operator_precedence.set(TokenType::QuestionMarkPeriod, 20); g_operator_precedence.set(TokenType::New, 19); g_operator_precedence.set(TokenType::PlusPlus, 18); g_operator_precedence.set(TokenType::MinusMinus, 18); g_operator_precedence.set(TokenType::ExclamationMark, 17); g_operator_precedence.set(TokenType::Tilde, 17); g_operator_precedence.set(TokenType::Typeof, 17); g_operator_precedence.set(TokenType::Void, 17); g_operator_precedence.set(TokenType::Delete, 17); g_operator_precedence.set(TokenType::Await, 17); g_operator_precedence.set(TokenType::DoubleAsterisk, 16); g_operator_precedence.set(TokenType::Asterisk, 15); g_operator_precedence.set(TokenType::Slash, 15); g_operator_precedence.set(TokenType::Percent, 15); g_operator_precedence.set(TokenType::Plus, 14); g_operator_precedence.set(TokenType::Minus, 14); g_operator_precedence.set(TokenType::ShiftLeft, 13); g_operator_precedence.set(TokenType::ShiftRight, 13); g_operator_precedence.set(TokenType::UnsignedShiftRight, 13); g_operator_precedence.set(TokenType::LessThan, 12); g_operator_precedence.set(TokenType::LessThanEquals, 12); g_operator_precedence.set(TokenType::GreaterThan, 12); g_operator_precedence.set(TokenType::GreaterThanEquals, 12); g_operator_precedence.set(TokenType::In, 12); g_operator_precedence.set(TokenType::Instanceof, 12); g_operator_precedence.set(TokenType::EqualsEquals, 11); g_operator_precedence.set(TokenType::ExclamationMarkEquals, 11); g_operator_precedence.set(TokenType::EqualsEqualsEquals, 11); g_operator_precedence.set(TokenType::ExclamationMarkEqualsEquals, 11); g_operator_precedence.set(TokenType::Ampersand, 10); g_operator_precedence.set(TokenType::Caret, 9); g_operator_precedence.set(TokenType::Pipe, 8); g_operator_precedence.set(TokenType::DoubleQuestionMark, 7); g_operator_precedence.set(TokenType::DoubleAmpersand, 6); g_operator_precedence.set(TokenType::DoublePipe, 5); g_operator_precedence.set(TokenType::QuestionMark, 4); g_operator_precedence.set(TokenType::Equals, 3); g_operator_precedence.set(TokenType::PlusEquals, 3); g_operator_precedence.set(TokenType::MinusEquals, 3); g_operator_precedence.set(TokenType::DoubleAsteriskEquals, 3); g_operator_precedence.set(TokenType::AsteriskEquals, 3); g_operator_precedence.set(TokenType::SlashEquals, 3); g_operator_precedence.set(TokenType::PercentEquals, 3); g_operator_precedence.set(TokenType::ShiftLeftEquals, 3); g_operator_precedence.set(TokenType::ShiftRightEquals, 3); g_operator_precedence.set(TokenType::UnsignedShiftRightEquals, 3); g_operator_precedence.set(TokenType::AmpersandEquals, 3); g_operator_precedence.set(TokenType::PipeEquals, 3); g_operator_precedence.set(TokenType::CaretEquals, 3); g_operator_precedence.set(TokenType::Yield, 2); g_operator_precedence.set(TokenType::Comma, 1); } } int Parser::operator_precedence(TokenType type) const { auto it = g_operator_precedence.find(type); if (it == g_operator_precedence.end()) { fprintf(stderr, "Internal Error: No precedence for operator %s\n", Token::name(type)); ASSERT_NOT_REACHED(); return -1; } return it->value; } Associativity Parser::operator_associativity(TokenType type) const { switch (type) { case TokenType::Period: case TokenType::BracketOpen: case TokenType::ParenOpen: case TokenType::QuestionMarkPeriod: case TokenType::Asterisk: case TokenType::Slash: case TokenType::Percent: case TokenType::Plus: case TokenType::Minus: case TokenType::ShiftLeft: case TokenType::ShiftRight: case TokenType::UnsignedShiftRight: case TokenType::LessThan: case TokenType::LessThanEquals: case TokenType::GreaterThan: case TokenType::GreaterThanEquals: case TokenType::In: case TokenType::Instanceof: case TokenType::EqualsEquals: case TokenType::ExclamationMarkEquals: case TokenType::EqualsEqualsEquals: case TokenType::ExclamationMarkEqualsEquals: case TokenType::Typeof: case TokenType::Void: case TokenType::Delete: case TokenType::Ampersand: case TokenType::Caret: case TokenType::Pipe: case TokenType::DoubleQuestionMark: case TokenType::DoubleAmpersand: case TokenType::DoublePipe: case TokenType::Comma: return Associativity::Left; default: return Associativity::Right; } } NonnullRefPtr Parser::parse_program() { ScopePusher scope(*this, ScopePusher::Var | ScopePusher::Let | ScopePusher::Function); auto program = adopt(*new Program); bool first = true; m_parser_state.m_use_strict_directive = UseStrictDirectiveState::Looking; while (!done()) { if (match_statement()) { program->append(parse_statement()); if (first) { if (m_parser_state.m_use_strict_directive == UseStrictDirectiveState::Found) { program->set_strict_mode(); m_parser_state.m_strict_mode = true; } first = false; m_parser_state.m_use_strict_directive = UseStrictDirectiveState::None; } } else { expected("statement"); consume(); } } if (m_parser_state.m_var_scopes.size() == 1) { program->add_variables(m_parser_state.m_var_scopes.last()); program->add_variables(m_parser_state.m_let_scopes.last()); program->add_functions(m_parser_state.m_function_scopes.last()); } else { syntax_error("Unclosed scope"); } return program; } NonnullRefPtr Parser::parse_statement() { auto statement = [this]() -> NonnullRefPtr { switch (m_parser_state.m_current_token.type()) { case TokenType::Class: return parse_class_declaration(); case TokenType::Function: { auto declaration = parse_function_node(); m_parser_state.m_function_scopes.last().append(declaration); return declaration; } case TokenType::CurlyOpen: return parse_block_statement(); case TokenType::Return: return parse_return_statement(); case TokenType::Var: case TokenType::Let: case TokenType::Const: return parse_variable_declaration(); case TokenType::For: return parse_for_statement(); case TokenType::If: return parse_if_statement(); case TokenType::Throw: return parse_throw_statement(); case TokenType::Try: return parse_try_statement(); case TokenType::Break: return parse_break_statement(); case TokenType::Continue: return parse_continue_statement(); case TokenType::Switch: return parse_switch_statement(); case TokenType::Do: return parse_do_while_statement(); case TokenType::While: return parse_while_statement(); case TokenType::Debugger: return parse_debugger_statement(); case TokenType::Semicolon: consume(); return create_ast_node(); default: if (match(TokenType::Identifier)) { auto result = try_parse_labelled_statement(); if (!result.is_null()) return result.release_nonnull(); } if (match_expression()) { auto expr = parse_expression(0); consume_or_insert_semicolon(); return create_ast_node(move(expr)); } expected("statement (missing switch case)"); consume(); return create_ast_node(); } }(); return statement; } RefPtr Parser::try_parse_arrow_function_expression(bool expect_parens) { save_state(); m_parser_state.m_var_scopes.append(NonnullRefPtrVector()); ArmedScopeGuard state_rollback_guard = [&] { m_parser_state.m_var_scopes.take_last(); load_state(); }; Vector parameters; bool parse_failed = false; bool has_rest_parameter = false; i32 function_length = -1; while (true) { if (match(TokenType::Comma)) { if (has_rest_parameter || !expect_parens) { parse_failed = true; break; } consume(TokenType::Comma); } else if (match(TokenType::Identifier)) { auto parameter_name = consume(TokenType::Identifier).value(); RefPtr default_value; if (expect_parens && match(TokenType::Equals)) { consume(TokenType::Equals); function_length = parameters.size(); default_value = parse_expression(2); } parameters.append({ parameter_name, default_value }); } else if (match(TokenType::TripleDot)) { consume(); if (has_rest_parameter) { parse_failed = true; break; } has_rest_parameter = true; function_length = parameters.size(); auto parameter_name = consume(TokenType::Identifier).value(); parameters.append({ parameter_name, nullptr, true }); } else if (match(TokenType::ParenClose)) { if (expect_parens) { consume(TokenType::ParenClose); if (match(TokenType::Arrow)) { consume(TokenType::Arrow); } else { parse_failed = true; } break; } parse_failed = true; break; } else if (match(TokenType::Arrow)) { if (!expect_parens) { consume(TokenType::Arrow); break; } parse_failed = true; break; } else { parse_failed = true; break; } } if (parse_failed) return nullptr; if (function_length == -1) function_length = parameters.size(); auto function_body_result = [this]() -> RefPtr { if (match(TokenType::CurlyOpen)) { // Parse a function body with statements return parse_block_statement(); } if (match_expression()) { // Parse a function body which returns a single expression // FIXME: We synthesize a block with a return statement // for arrow function bodies which are a single expression. // Esprima generates a single "ArrowFunctionExpression" // with a "body" property. auto return_expression = parse_expression(2); auto return_block = create_ast_node(); return_block->append(move(return_expression)); return return_block; } // Invalid arrow function body return nullptr; }(); if (!function_body_result.is_null()) { state_rollback_guard.disarm(); auto body = function_body_result.release_nonnull(); return create_ast_node("", move(body), move(parameters), function_length, m_parser_state.m_var_scopes.take_last(), true); } return nullptr; } RefPtr Parser::try_parse_labelled_statement() { save_state(); ArmedScopeGuard state_rollback_guard = [&] { load_state(); }; auto identifier = consume(TokenType::Identifier).value(); if (!match(TokenType::Colon)) return {}; consume(TokenType::Colon); if (!match_statement()) return {}; auto statement = parse_statement(); statement->set_label(identifier); state_rollback_guard.disarm(); return statement; } NonnullRefPtr Parser::parse_class_declaration() { return create_ast_node(parse_class_expression(true)); } NonnullRefPtr Parser::parse_class_expression(bool expect_class_name) { // Classes are always in strict mode. TemporaryChange strict_mode_rollback(m_parser_state.m_strict_mode, true); consume(TokenType::Class); NonnullRefPtrVector methods; RefPtr super_class; RefPtr constructor; String class_name = expect_class_name || match(TokenType::Identifier) ? consume(TokenType::Identifier).value().to_string() : ""; if (match(TokenType::Extends)) { consume(); super_class = parse_primary_expression(); } consume(TokenType::CurlyOpen); while (!done() && !match(TokenType::CurlyClose)) { RefPtr property_key; bool is_static = false; bool is_constructor = false; auto method_kind = ClassMethod::Kind::Method; if (match(TokenType::Semicolon)) { consume(); continue; } if (match_property_key()) { StringView name; if (match(TokenType::Identifier) && m_parser_state.m_current_token.value() == "static") { consume(); is_static = true; } if (match(TokenType::Identifier)) { auto identifier_name = m_parser_state.m_current_token.value(); if (identifier_name == "get") { method_kind = ClassMethod::Kind::Getter; consume(); } else if (identifier_name == "set") { method_kind = ClassMethod::Kind::Setter; consume(); } } if (match_property_key()) { switch (m_parser_state.m_current_token.type()) { case TokenType::Identifier: name = consume().value(); property_key = create_ast_node(name); break; case TokenType::StringLiteral: { auto string_literal = parse_string_literal(consume()); name = string_literal->value(); property_key = move(string_literal); break; } default: property_key = parse_property_key(); break; } } else { expected("property key"); } // Constructor may be a StringLiteral or an Identifier. if (!is_static && name == "constructor") { if (method_kind != ClassMethod::Kind::Method) syntax_error("Class constructor may not be an accessor"); if (!constructor.is_null()) syntax_error("Classes may not have more than one constructor"); is_constructor = true; } } if (match(TokenType::ParenOpen)) { auto function = parse_function_node(false, true, !super_class.is_null()); auto arg_count = function->parameters().size(); if (method_kind == ClassMethod::Kind::Getter && arg_count != 0) { syntax_error("Class getter method must have no arguments"); } else if (method_kind == ClassMethod::Kind::Setter && arg_count != 1) { syntax_error("Class setter method must have one argument"); } if (is_constructor) { constructor = move(function); } else if (!property_key.is_null()) { methods.append(create_ast_node(property_key.release_nonnull(), move(function), method_kind, is_static)); } else { syntax_error("No key for class method"); } } else { expected("ParenOpen"); consume(); } } consume(TokenType::CurlyClose); if (constructor.is_null()) { auto constructor_body = create_ast_node(); if (!super_class.is_null()) { // Set constructor to the result of parsing the source text // constructor(... args){ super (...args);} auto super_call = create_ast_node(create_ast_node(), Vector { CallExpression::Argument { create_ast_node("args"), true } }); constructor_body->append(create_ast_node(move(super_call))); constructor_body->add_variables(m_parser_state.m_var_scopes.last()); constructor = create_ast_node(class_name, move(constructor_body), Vector { FunctionNode::Parameter { "args", nullptr, true } }, 0, NonnullRefPtrVector()); } else { constructor = create_ast_node(class_name, move(constructor_body), Vector {}, 0, NonnullRefPtrVector()); } } return create_ast_node(move(class_name), move(constructor), move(super_class), move(methods)); } NonnullRefPtr Parser::parse_primary_expression() { if (match_unary_prefixed_expression()) return parse_unary_prefixed_expression(); switch (m_parser_state.m_current_token.type()) { case TokenType::ParenOpen: { consume(TokenType::ParenOpen); if (match(TokenType::ParenClose) || match(TokenType::Identifier) || match(TokenType::TripleDot)) { auto arrow_function_result = try_parse_arrow_function_expression(true); if (!arrow_function_result.is_null()) { return arrow_function_result.release_nonnull(); } } auto expression = parse_expression(0); consume(TokenType::ParenClose); return expression; } case TokenType::This: consume(); return create_ast_node(); case TokenType::Class: return parse_class_expression(false); case TokenType::Super: consume(); if (!m_parser_state.m_allow_super_property_lookup) syntax_error("'super' keyword unexpected here"); return create_ast_node(); case TokenType::Identifier: { auto arrow_function_result = try_parse_arrow_function_expression(false); if (!arrow_function_result.is_null()) { return arrow_function_result.release_nonnull(); } return create_ast_node(consume().value()); } case TokenType::NumericLiteral: return create_ast_node(consume().double_value()); case TokenType::BigIntLiteral: return create_ast_node(consume().value()); case TokenType::BoolLiteral: return create_ast_node(consume().bool_value()); case TokenType::StringLiteral: return parse_string_literal(consume()); case TokenType::NullLiteral: consume(); return create_ast_node(); case TokenType::CurlyOpen: return parse_object_expression(); case TokenType::Function: return parse_function_node(); case TokenType::BracketOpen: return parse_array_expression(); case TokenType::RegexLiteral: return parse_regexp_literal(); case TokenType::TemplateLiteralStart: return parse_template_literal(false); case TokenType::New: return parse_new_expression(); default: expected("primary expression (missing switch case)"); consume(); return create_ast_node(); } } NonnullRefPtr Parser::parse_regexp_literal() { auto content = consume().value(); auto flags = match(TokenType::RegexFlags) ? consume().value() : ""; return create_ast_node(content.substring_view(1, content.length() - 2), flags); } NonnullRefPtr Parser::parse_unary_prefixed_expression() { auto precedence = operator_precedence(m_parser_state.m_current_token.type()); auto associativity = operator_associativity(m_parser_state.m_current_token.type()); switch (m_parser_state.m_current_token.type()) { case TokenType::PlusPlus: { consume(); auto rhs_start_line = m_parser_state.m_current_token.line_number(); auto rhs_start_column = m_parser_state.m_current_token.line_column(); auto rhs = parse_expression(precedence, associativity); if (!rhs->is_identifier() && !rhs->is_member_expression()) syntax_error(String::format("Right-hand side of prefix increment operator must be identifier or member expression, got %s", rhs->class_name()), rhs_start_line, rhs_start_column); return create_ast_node(UpdateOp::Increment, move(rhs), true); } case TokenType::MinusMinus: { consume(); auto rhs_start_line = m_parser_state.m_current_token.line_number(); auto rhs_start_column = m_parser_state.m_current_token.line_column(); auto rhs = parse_expression(precedence, associativity); if (!rhs->is_identifier() && !rhs->is_member_expression()) syntax_error(String::format("Right-hand side of prefix decrement operator must be identifier or member expression, got %s", rhs->class_name()), rhs_start_line, rhs_start_column); return create_ast_node(UpdateOp::Decrement, move(rhs), true); } case TokenType::ExclamationMark: consume(); return create_ast_node(UnaryOp::Not, parse_expression(precedence, associativity)); case TokenType::Tilde: consume(); return create_ast_node(UnaryOp::BitwiseNot, parse_expression(precedence, associativity)); case TokenType::Plus: consume(); return create_ast_node(UnaryOp::Plus, parse_expression(precedence, associativity)); case TokenType::Minus: consume(); return create_ast_node(UnaryOp::Minus, parse_expression(precedence, associativity)); case TokenType::Typeof: consume(); return create_ast_node(UnaryOp::Typeof, parse_expression(precedence, associativity)); case TokenType::Void: consume(); return create_ast_node(UnaryOp::Void, parse_expression(precedence, associativity)); case TokenType::Delete: consume(); return create_ast_node(UnaryOp::Delete, parse_expression(precedence, associativity)); default: expected("primary expression (missing switch case)"); consume(); return create_ast_node(); } } NonnullRefPtr Parser::parse_property_key() { if (match(TokenType::StringLiteral)) { return parse_string_literal(consume()); } else if (match(TokenType::NumericLiteral)) { return create_ast_node(consume(TokenType::NumericLiteral).value()); } else if (match(TokenType::BigIntLiteral)) { auto value = consume(TokenType::BigIntLiteral).value(); return create_ast_node(value.substring_view(0, value.length() - 1)); } else if (match(TokenType::BracketOpen)) { consume(TokenType::BracketOpen); auto result = parse_expression(0); consume(TokenType::BracketClose); return result; } else { if (!match_identifier_name()) expected("IdentifierName"); return create_ast_node(consume().value()); } } NonnullRefPtr Parser::parse_object_expression() { consume(TokenType::CurlyOpen); NonnullRefPtrVector properties; ObjectProperty::Type property_type; auto skip_to_next_property = [&] { while (!done() && !match(TokenType::Comma) && !match(TokenType::CurlyOpen)) consume(); }; while (!done() && !match(TokenType::CurlyClose)) { property_type = ObjectProperty::Type::KeyValue; RefPtr property_name; RefPtr property_value; if (match(TokenType::TripleDot)) { consume(); property_name = parse_expression(4); properties.append(create_ast_node(*property_name, nullptr, ObjectProperty::Type::Spread, false)); if (!match(TokenType::Comma)) break; consume(TokenType::Comma); continue; } if (match(TokenType::Identifier)) { auto identifier = consume().value(); if (identifier == "get" && match_property_key()) { property_type = ObjectProperty::Type::Getter; property_name = parse_property_key(); } else if (identifier == "set" && match_property_key()) { property_type = ObjectProperty::Type::Setter; property_name = parse_property_key(); } else { property_name = create_ast_node(identifier); property_value = create_ast_node(identifier); } } else { property_name = parse_property_key(); } if (property_type == ObjectProperty::Type::Getter || property_type == ObjectProperty::Type::Setter) { if (!match(TokenType::ParenOpen)) { syntax_error( "Expected '(' for object getter or setter property", m_parser_state.m_current_token.line_number(), m_parser_state.m_current_token.line_column()); skip_to_next_property(); continue; } } if (match(TokenType::ParenOpen)) { ASSERT(property_name); auto function = parse_function_node(false, true); auto arg_count = function->parameters().size(); if (property_type == ObjectProperty::Type::Getter && arg_count != 0) { syntax_error( "Object getter property must have no arguments", m_parser_state.m_current_token.line_number(), m_parser_state.m_current_token.line_column()); skip_to_next_property(); continue; } if (property_type == ObjectProperty::Type::Setter && arg_count != 1) { syntax_error( "Object setter property must have one argument", m_parser_state.m_current_token.line_number(), m_parser_state.m_current_token.line_column()); skip_to_next_property(); continue; } properties.append(create_ast_node(*property_name, function, property_type, true)); } else if (match(TokenType::Colon)) { if (!property_name) { syntax_error("Expected a property name"); skip_to_next_property(); continue; } consume(); properties.append(create_ast_node(*property_name, parse_expression(2), property_type, false)); } else if (property_name && property_value) { properties.append(create_ast_node(*property_name, *property_value, property_type, false)); } else { syntax_error("Expected a property"); skip_to_next_property(); continue; } if (!match(TokenType::Comma)) break; consume(TokenType::Comma); } consume(TokenType::CurlyClose); return create_ast_node(properties); } NonnullRefPtr Parser::parse_array_expression() { consume(TokenType::BracketOpen); Vector> elements; while (match_expression() || match(TokenType::TripleDot) || match(TokenType::Comma)) { RefPtr expression; if (match(TokenType::TripleDot)) { consume(TokenType::TripleDot); expression = create_ast_node(parse_expression(2)); } else if (match_expression()) { expression = parse_expression(2); } elements.append(expression); if (!match(TokenType::Comma)) break; consume(TokenType::Comma); } consume(TokenType::BracketClose); return create_ast_node(move(elements)); } NonnullRefPtr Parser::parse_string_literal(Token token) { auto status = Token::StringValueStatus::Ok; auto string = token.string_value(status); if (status != Token::StringValueStatus::Ok) { String message; if (status == Token::StringValueStatus::MalformedHexEscape || status == Token::StringValueStatus::MalformedUnicodeEscape) { auto type = status == Token::StringValueStatus::MalformedUnicodeEscape ? "unicode" : "hexadecimal"; message = String::format("Malformed %s escape sequence", type); } else if (status == Token::StringValueStatus::UnicodeEscapeOverflow) { message = "Unicode codepoint must not be greater than 0x10ffff in escape sequence"; } syntax_error( message, m_parser_state.m_current_token.line_number(), m_parser_state.m_current_token.line_column()); } if (m_parser_state.m_use_strict_directive == UseStrictDirectiveState::Looking) { if (string == "use strict" && token.type() != TokenType::TemplateLiteralString) { m_parser_state.m_use_strict_directive = UseStrictDirectiveState::Found; } else { m_parser_state.m_use_strict_directive = UseStrictDirectiveState::None; } } return create_ast_node(string); } NonnullRefPtr Parser::parse_template_literal(bool is_tagged) { consume(TokenType::TemplateLiteralStart); NonnullRefPtrVector expressions; NonnullRefPtrVector raw_strings; auto append_empty_string = [&expressions, &raw_strings, is_tagged]() { auto string_literal = create_ast_node(""); expressions.append(string_literal); if (is_tagged) raw_strings.append(string_literal); }; if (!match(TokenType::TemplateLiteralString)) append_empty_string(); while (!done() && !match(TokenType::TemplateLiteralEnd) && !match(TokenType::UnterminatedTemplateLiteral)) { if (match(TokenType::TemplateLiteralString)) { auto token = consume(); expressions.append(parse_string_literal(token)); if (is_tagged) raw_strings.append(create_ast_node(token.value())); } else if (match(TokenType::TemplateLiteralExprStart)) { consume(TokenType::TemplateLiteralExprStart); if (match(TokenType::TemplateLiteralExprEnd)) { syntax_error("Empty template literal expression block"); return create_ast_node(expressions); } expressions.append(parse_expression(0)); if (match(TokenType::UnterminatedTemplateLiteral)) { syntax_error("Unterminated template literal"); return create_ast_node(expressions); } consume(TokenType::TemplateLiteralExprEnd); if (!match(TokenType::TemplateLiteralString)) append_empty_string(); } else { expected("Template literal string or expression"); break; } } if (match(TokenType::UnterminatedTemplateLiteral)) { syntax_error("Unterminated template literal"); } else { consume(TokenType::TemplateLiteralEnd); } if (is_tagged) return create_ast_node(expressions, raw_strings); return create_ast_node(expressions); } NonnullRefPtr Parser::parse_expression(int min_precedence, Associativity associativity, Vector forbidden) { auto expression = parse_primary_expression(); while (match(TokenType::TemplateLiteralStart)) { auto template_literal = parse_template_literal(true); expression = create_ast_node(move(expression), move(template_literal)); } while (match_secondary_expression(forbidden)) { int new_precedence = operator_precedence(m_parser_state.m_current_token.type()); if (new_precedence < min_precedence) break; if (new_precedence == min_precedence && associativity == Associativity::Left) break; Associativity new_associativity = operator_associativity(m_parser_state.m_current_token.type()); expression = parse_secondary_expression(move(expression), new_precedence, new_associativity); while (match(TokenType::TemplateLiteralStart)) { auto template_literal = parse_template_literal(true); expression = create_ast_node(move(expression), move(template_literal)); } } if (match(TokenType::Comma) && min_precedence <= 1) { NonnullRefPtrVector expressions; expressions.append(expression); while (match(TokenType::Comma)) { consume(); expressions.append(parse_expression(2)); } expression = create_ast_node(move(expressions)); } return expression; } NonnullRefPtr Parser::parse_secondary_expression(NonnullRefPtr lhs, int min_precedence, Associativity associativity) { switch (m_parser_state.m_current_token.type()) { case TokenType::Plus: consume(); return create_ast_node(BinaryOp::Addition, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::PlusEquals: consume(); return create_ast_node(AssignmentOp::AdditionAssignment, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::Minus: consume(); return create_ast_node(BinaryOp::Subtraction, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::MinusEquals: consume(); return create_ast_node(AssignmentOp::SubtractionAssignment, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::Asterisk: consume(); return create_ast_node(BinaryOp::Multiplication, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::AsteriskEquals: consume(); return create_ast_node(AssignmentOp::MultiplicationAssignment, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::Slash: consume(); return create_ast_node(BinaryOp::Division, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::SlashEquals: consume(); return create_ast_node(AssignmentOp::DivisionAssignment, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::Percent: consume(); return create_ast_node(BinaryOp::Modulo, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::PercentEquals: consume(); return create_ast_node(AssignmentOp::ModuloAssignment, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::DoubleAsterisk: consume(); return create_ast_node(BinaryOp::Exponentiation, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::DoubleAsteriskEquals: consume(); return create_ast_node(AssignmentOp::ExponentiationAssignment, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::GreaterThan: consume(); return create_ast_node(BinaryOp::GreaterThan, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::GreaterThanEquals: consume(); return create_ast_node(BinaryOp::GreaterThanEquals, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::LessThan: consume(); return create_ast_node(BinaryOp::LessThan, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::LessThanEquals: consume(); return create_ast_node(BinaryOp::LessThanEquals, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::EqualsEqualsEquals: consume(); return create_ast_node(BinaryOp::TypedEquals, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::ExclamationMarkEqualsEquals: consume(); return create_ast_node(BinaryOp::TypedInequals, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::EqualsEquals: consume(); return create_ast_node(BinaryOp::AbstractEquals, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::ExclamationMarkEquals: consume(); return create_ast_node(BinaryOp::AbstractInequals, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::In: consume(); return create_ast_node(BinaryOp::In, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::Instanceof: consume(); return create_ast_node(BinaryOp::InstanceOf, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::Ampersand: consume(); return create_ast_node(BinaryOp::BitwiseAnd, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::AmpersandEquals: consume(); return create_ast_node(AssignmentOp::BitwiseAndAssignment, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::Pipe: consume(); return create_ast_node(BinaryOp::BitwiseOr, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::PipeEquals: consume(); return create_ast_node(AssignmentOp::BitwiseOrAssignment, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::Caret: consume(); return create_ast_node(BinaryOp::BitwiseXor, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::CaretEquals: consume(); return create_ast_node(AssignmentOp::BitwiseXorAssignment, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::ShiftLeft: consume(); return create_ast_node(BinaryOp::LeftShift, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::ShiftLeftEquals: consume(); return create_ast_node(AssignmentOp::LeftShiftAssignment, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::ShiftRight: consume(); return create_ast_node(BinaryOp::RightShift, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::ShiftRightEquals: consume(); return create_ast_node(AssignmentOp::RightShiftAssignment, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::UnsignedShiftRight: consume(); return create_ast_node(BinaryOp::UnsignedRightShift, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::UnsignedShiftRightEquals: consume(); return create_ast_node(AssignmentOp::UnsignedRightShiftAssignment, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::ParenOpen: return parse_call_expression(move(lhs)); case TokenType::Equals: consume(); if (!lhs->is_identifier() && !lhs->is_member_expression() && !lhs->is_call_expression()) { syntax_error("Invalid left-hand side in assignment"); return create_ast_node(); } if (m_parser_state.m_strict_mode && lhs->is_identifier()) { auto name = static_cast(*lhs).string(); if (name == "eval" || name == "arguments") { syntax_error( String::format("'%s' cannot be assigned to in strict mode code", name.characters()), m_parser_state.m_current_token.line_number(), m_parser_state.m_current_token.line_column()); } } return create_ast_node(AssignmentOp::Assignment, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::Period: consume(); if (!match_identifier_name()) expected("IdentifierName"); return create_ast_node(move(lhs), create_ast_node(consume().value())); case TokenType::BracketOpen: { consume(TokenType::BracketOpen); auto expression = create_ast_node(move(lhs), parse_expression(0), true); consume(TokenType::BracketClose); return expression; } case TokenType::PlusPlus: if (!lhs->is_identifier() && !lhs->is_member_expression()) syntax_error(String::format("Left-hand side of postfix increment operator must be identifier or member expression, got %s", lhs->class_name())); consume(); return create_ast_node(UpdateOp::Increment, move(lhs)); case TokenType::MinusMinus: if (!lhs->is_identifier() && !lhs->is_member_expression()) syntax_error(String::format("Left-hand side of postfix increment operator must be identifier or member expression, got %s", lhs->class_name())); consume(); return create_ast_node(UpdateOp::Decrement, move(lhs)); case TokenType::DoubleAmpersand: consume(); return create_ast_node(LogicalOp::And, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::DoublePipe: consume(); return create_ast_node(LogicalOp::Or, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::DoubleQuestionMark: consume(); return create_ast_node(LogicalOp::NullishCoalescing, move(lhs), parse_expression(min_precedence, associativity)); case TokenType::QuestionMark: return parse_conditional_expression(move(lhs)); default: expected("secondary expression (missing switch case)"); consume(); return create_ast_node(); } } NonnullRefPtr Parser::parse_call_expression(NonnullRefPtr lhs) { if (!m_parser_state.m_allow_super_constructor_call && lhs->is_super_expression()) syntax_error("'super' keyword unexpected here"); consume(TokenType::ParenOpen); Vector arguments; while (match_expression() || match(TokenType::TripleDot)) { if (match(TokenType::TripleDot)) { consume(); arguments.append({ parse_expression(2), true }); } else { arguments.append({ parse_expression(2), false }); } if (!match(TokenType::Comma)) break; consume(); } consume(TokenType::ParenClose); return create_ast_node(move(lhs), move(arguments)); } NonnullRefPtr Parser::parse_new_expression() { consume(TokenType::New); auto callee = parse_expression(g_operator_precedence.get(TokenType::New).value(), Associativity::Right, { TokenType::ParenOpen }); Vector arguments; if (match(TokenType::ParenOpen)) { consume(TokenType::ParenOpen); while (match_expression() || match(TokenType::TripleDot)) { if (match(TokenType::TripleDot)) { consume(); arguments.append({ parse_expression(2), true }); } else { arguments.append({ parse_expression(2), false }); } if (!match(TokenType::Comma)) break; consume(); } consume(TokenType::ParenClose); } return create_ast_node(move(callee), move(arguments)); } NonnullRefPtr Parser::parse_return_statement() { consume(TokenType::Return); // Automatic semicolon insertion: terminate statement when return is followed by newline if (m_parser_state.m_current_token.trivia().contains('\n')) return create_ast_node(nullptr); if (match_expression()) { auto expression = parse_expression(0); consume_or_insert_semicolon(); return create_ast_node(move(expression)); } consume_or_insert_semicolon(); return create_ast_node(nullptr); } NonnullRefPtr Parser::parse_block_statement() { ScopePusher scope(*this, ScopePusher::Let); auto block = create_ast_node(); consume(TokenType::CurlyOpen); bool first = true; bool initial_strict_mode_state = m_parser_state.m_strict_mode; if (initial_strict_mode_state) { m_parser_state.m_use_strict_directive = UseStrictDirectiveState::None; block->set_strict_mode(); } else { m_parser_state.m_use_strict_directive = UseStrictDirectiveState::Looking; } while (!done() && !match(TokenType::CurlyClose)) { if (match(TokenType::Semicolon)) { consume(); } else if (match_statement()) { block->append(parse_statement()); if (first && !initial_strict_mode_state) { if (m_parser_state.m_use_strict_directive == UseStrictDirectiveState::Found) { block->set_strict_mode(); m_parser_state.m_strict_mode = true; } m_parser_state.m_use_strict_directive = UseStrictDirectiveState::None; } } else { expected("statement"); consume(); } first = false; } m_parser_state.m_strict_mode = initial_strict_mode_state; consume(TokenType::CurlyClose); block->add_variables(m_parser_state.m_let_scopes.last()); block->add_functions(m_parser_state.m_function_scopes.last()); return block; } template NonnullRefPtr Parser::parse_function_node(bool check_for_function_and_name, bool allow_super_property_lookup, bool allow_super_constructor_call) { TemporaryChange super_property_access_rollback(m_parser_state.m_allow_super_property_lookup, allow_super_property_lookup); TemporaryChange super_constructor_call_rollback(m_parser_state.m_allow_super_constructor_call, allow_super_constructor_call); ScopePusher scope(*this, ScopePusher::Var | ScopePusher::Function); if (check_for_function_and_name) consume(TokenType::Function); String name; if (check_for_function_and_name) { if (FunctionNodeType::must_have_name()) { name = consume(TokenType::Identifier).value(); } else { if (match(TokenType::Identifier)) name = consume(TokenType::Identifier).value(); } } consume(TokenType::ParenOpen); Vector parameters; i32 function_length = -1; while (match(TokenType::Identifier) || match(TokenType::TripleDot)) { if (match(TokenType::TripleDot)) { consume(); auto parameter_name = consume(TokenType::Identifier).value(); function_length = parameters.size(); parameters.append({ parameter_name, nullptr, true }); break; } auto parameter_name = consume(TokenType::Identifier).value(); RefPtr default_value; if (match(TokenType::Equals)) { consume(TokenType::Equals); function_length = parameters.size(); default_value = parse_expression(2); } parameters.append({ parameter_name, default_value }); if (match(TokenType::ParenClose)) break; consume(TokenType::Comma); } consume(TokenType::ParenClose); if (function_length == -1) function_length = parameters.size(); auto body = parse_block_statement(); body->add_variables(m_parser_state.m_var_scopes.last()); body->add_functions(m_parser_state.m_function_scopes.last()); return create_ast_node(name, move(body), move(parameters), function_length, NonnullRefPtrVector()); } NonnullRefPtr Parser::parse_variable_declaration(bool with_semicolon) { DeclarationKind declaration_kind; switch (m_parser_state.m_current_token.type()) { case TokenType::Var: declaration_kind = DeclarationKind::Var; consume(TokenType::Var); break; case TokenType::Let: declaration_kind = DeclarationKind::Let; consume(TokenType::Let); break; case TokenType::Const: declaration_kind = DeclarationKind::Const; consume(TokenType::Const); break; default: ASSERT_NOT_REACHED(); } NonnullRefPtrVector declarations; for (;;) { auto id = consume(TokenType::Identifier).value(); RefPtr init; if (match(TokenType::Equals)) { consume(); init = parse_expression(2); } declarations.append(create_ast_node(create_ast_node(move(id)), move(init))); if (match(TokenType::Comma)) { consume(); continue; } break; } if (with_semicolon) consume_or_insert_semicolon(); auto declaration = create_ast_node(declaration_kind, move(declarations)); if (declaration_kind == DeclarationKind::Var) m_parser_state.m_var_scopes.last().append(declaration); else m_parser_state.m_let_scopes.last().append(declaration); return declaration; } NonnullRefPtr Parser::parse_throw_statement() { consume(TokenType::Throw); // Automatic semicolon insertion: terminate statement when throw is followed by newline if (m_parser_state.m_current_token.trivia().contains('\n')) { syntax_error("No line break is allowed between 'throw' and its expression"); return create_ast_node(create_ast_node()); } auto expression = parse_expression(0); consume_or_insert_semicolon(); return create_ast_node(move(expression)); } NonnullRefPtr Parser::parse_break_statement() { consume(TokenType::Break); FlyString target_label; if (match(TokenType::Semicolon)) { consume(); return create_ast_node(target_label); } if (match(TokenType::Identifier) && !m_parser_state.m_current_token.trivia().contains('\n')) target_label = consume().value(); consume_or_insert_semicolon(); return create_ast_node(target_label); } NonnullRefPtr Parser::parse_continue_statement() { consume(TokenType::Continue); FlyString target_label; if (match(TokenType::Semicolon)) { consume(); return create_ast_node(target_label); } if (match(TokenType::Identifier) && !m_parser_state.m_current_token.trivia().contains('\n')) target_label = consume().value(); consume_or_insert_semicolon(); return create_ast_node(target_label); } NonnullRefPtr Parser::parse_conditional_expression(NonnullRefPtr test) { consume(TokenType::QuestionMark); auto consequent = parse_expression(2); consume(TokenType::Colon); auto alternate = parse_expression(2); return create_ast_node(move(test), move(consequent), move(alternate)); } NonnullRefPtr Parser::parse_try_statement() { consume(TokenType::Try); auto block = parse_block_statement(); RefPtr handler; if (match(TokenType::Catch)) handler = parse_catch_clause(); RefPtr finalizer; if (match(TokenType::Finally)) { consume(); finalizer = parse_block_statement(); } return create_ast_node(move(block), move(handler), move(finalizer)); } NonnullRefPtr Parser::parse_do_while_statement() { consume(TokenType::Do); auto body = parse_statement(); consume(TokenType::While); consume(TokenType::ParenOpen); auto test = parse_expression(0); consume(TokenType::ParenClose); consume_or_insert_semicolon(); return create_ast_node(move(test), move(body)); } NonnullRefPtr Parser::parse_while_statement() { consume(TokenType::While); consume(TokenType::ParenOpen); auto test = parse_expression(0); consume(TokenType::ParenClose); auto body = parse_statement(); return create_ast_node(move(test), move(body)); } NonnullRefPtr Parser::parse_switch_statement() { consume(TokenType::Switch); consume(TokenType::ParenOpen); auto determinant = parse_expression(0); consume(TokenType::ParenClose); consume(TokenType::CurlyOpen); NonnullRefPtrVector cases; while (match(TokenType::Case) || match(TokenType::Default)) cases.append(parse_switch_case()); consume(TokenType::CurlyClose); return create_ast_node(move(determinant), move(cases)); } NonnullRefPtr Parser::parse_switch_case() { RefPtr test; if (consume().type() == TokenType::Case) { test = parse_expression(0); } consume(TokenType::Colon); NonnullRefPtrVector consequent; while (match_statement()) consequent.append(parse_statement()); return create_ast_node(move(test), move(consequent)); } NonnullRefPtr Parser::parse_catch_clause() { consume(TokenType::Catch); String parameter; if (match(TokenType::ParenOpen)) { consume(); parameter = consume(TokenType::Identifier).value(); consume(TokenType::ParenClose); } auto body = parse_block_statement(); return create_ast_node(parameter, move(body)); } NonnullRefPtr Parser::parse_if_statement() { consume(TokenType::If); consume(TokenType::ParenOpen); auto predicate = parse_expression(0); consume(TokenType::ParenClose); auto consequent = parse_statement(); RefPtr alternate; if (match(TokenType::Else)) { consume(TokenType::Else); alternate = parse_statement(); } return create_ast_node(move(predicate), move(consequent), move(alternate)); } NonnullRefPtr Parser::parse_for_statement() { auto match_for_in_of = [&]() { return match(TokenType::In) || (match(TokenType::Identifier) && m_parser_state.m_current_token.value() == "of"); }; consume(TokenType::For); consume(TokenType::ParenOpen); bool in_scope = false; RefPtr init; if (!match(TokenType::Semicolon)) { if (match_expression()) { init = parse_expression(0, Associativity::Right, { TokenType::In }); if (match_for_in_of()) return parse_for_in_of_statement(*init); } else if (match_variable_declaration()) { if (!match(TokenType::Var)) { m_parser_state.m_let_scopes.append(NonnullRefPtrVector()); in_scope = true; } init = parse_variable_declaration(false); if (match_for_in_of()) return parse_for_in_of_statement(*init); } else { syntax_error("Unexpected token in for loop"); } } consume(TokenType::Semicolon); RefPtr test; if (!match(TokenType::Semicolon)) test = parse_expression(0); consume(TokenType::Semicolon); RefPtr update; if (!match(TokenType::ParenClose)) update = parse_expression(0); consume(TokenType::ParenClose); auto body = parse_statement(); if (in_scope) { m_parser_state.m_let_scopes.take_last(); } return create_ast_node(move(init), move(test), move(update), move(body)); } NonnullRefPtr Parser::parse_for_in_of_statement(NonnullRefPtr lhs) { if (lhs->is_variable_declaration()) { auto declarations = static_cast(lhs.ptr())->declarations(); if (declarations.size() > 1) { syntax_error("multiple declarations not allowed in for..in/of"); lhs = create_ast_node(); } if (declarations.first().init() != nullptr) { syntax_error("variable initializer not allowed in for..in/of"); lhs = create_ast_node(); } } auto in_or_of = consume(); auto rhs = parse_expression(0); consume(TokenType::ParenClose); auto body = parse_statement(); if (in_or_of.type() == TokenType::In) return create_ast_node(move(lhs), move(rhs), move(body)); return create_ast_node(move(lhs), move(rhs), move(body)); } NonnullRefPtr Parser::parse_debugger_statement() { consume(TokenType::Debugger); consume_or_insert_semicolon(); return create_ast_node(); } bool Parser::match(TokenType type) const { return m_parser_state.m_current_token.type() == type; } bool Parser::match_variable_declaration() const { switch (m_parser_state.m_current_token.type()) { case TokenType::Var: case TokenType::Let: case TokenType::Const: return true; default: return false; } } bool Parser::match_expression() const { auto type = m_parser_state.m_current_token.type(); return type == TokenType::BoolLiteral || type == TokenType::NumericLiteral || type == TokenType::BigIntLiteral || type == TokenType::StringLiteral || type == TokenType::TemplateLiteralStart || type == TokenType::NullLiteral || type == TokenType::Identifier || type == TokenType::New || type == TokenType::CurlyOpen || type == TokenType::BracketOpen || type == TokenType::ParenOpen || type == TokenType::Function || type == TokenType::This || type == TokenType::Super || type == TokenType::RegexLiteral || match_unary_prefixed_expression(); } bool Parser::match_unary_prefixed_expression() const { auto type = m_parser_state.m_current_token.type(); return type == TokenType::PlusPlus || type == TokenType::MinusMinus || type == TokenType::ExclamationMark || type == TokenType::Tilde || type == TokenType::Plus || type == TokenType::Minus || type == TokenType::Typeof || type == TokenType::Void || type == TokenType::Delete; } bool Parser::match_secondary_expression(Vector forbidden) const { auto type = m_parser_state.m_current_token.type(); if (forbidden.contains_slow(type)) return false; return type == TokenType::Plus || type == TokenType::PlusEquals || type == TokenType::Minus || type == TokenType::MinusEquals || type == TokenType::Asterisk || type == TokenType::AsteriskEquals || type == TokenType::Slash || type == TokenType::SlashEquals || type == TokenType::Percent || type == TokenType::PercentEquals || type == TokenType::DoubleAsterisk || type == TokenType::DoubleAsteriskEquals || type == TokenType::Equals || type == TokenType::EqualsEqualsEquals || type == TokenType::ExclamationMarkEqualsEquals || type == TokenType::EqualsEquals || type == TokenType::ExclamationMarkEquals || type == TokenType::GreaterThan || type == TokenType::GreaterThanEquals || type == TokenType::LessThan || type == TokenType::LessThanEquals || type == TokenType::ParenOpen || type == TokenType::Period || type == TokenType::BracketOpen || type == TokenType::PlusPlus || type == TokenType::MinusMinus || type == TokenType::In || type == TokenType::Instanceof || type == TokenType::QuestionMark || type == TokenType::Ampersand || type == TokenType::AmpersandEquals || type == TokenType::Pipe || type == TokenType::PipeEquals || type == TokenType::Caret || type == TokenType::CaretEquals || type == TokenType::ShiftLeft || type == TokenType::ShiftLeftEquals || type == TokenType::ShiftRight || type == TokenType::ShiftRightEquals || type == TokenType::UnsignedShiftRight || type == TokenType::UnsignedShiftRightEquals || type == TokenType::DoubleAmpersand || type == TokenType::DoublePipe || type == TokenType::DoubleQuestionMark; } bool Parser::match_statement() const { auto type = m_parser_state.m_current_token.type(); return match_expression() || type == TokenType::Function || type == TokenType::Return || type == TokenType::Let || type == TokenType::Class || type == TokenType::Do || type == TokenType::If || type == TokenType::Throw || type == TokenType::Try || type == TokenType::While || type == TokenType::For || type == TokenType::Const || type == TokenType::CurlyOpen || type == TokenType::Switch || type == TokenType::Break || type == TokenType::Continue || type == TokenType::Var || type == TokenType::Debugger || type == TokenType::Semicolon; } bool Parser::match_identifier_name() const { return m_parser_state.m_current_token.is_identifier_name(); } bool Parser::match_property_key() const { auto type = m_parser_state.m_current_token.type(); return match_identifier_name() || type == TokenType::BracketOpen || type == TokenType::StringLiteral || type == TokenType::NumericLiteral || type == TokenType::BigIntLiteral; } bool Parser::done() const { return match(TokenType::Eof); } Token Parser::consume() { auto old_token = m_parser_state.m_current_token; m_parser_state.m_current_token = m_parser_state.m_lexer.next(); return old_token; } void Parser::consume_or_insert_semicolon() { // Semicolon was found and will be consumed if (match(TokenType::Semicolon)) { consume(); return; } // Insert semicolon if... // ...token is preceeded by one or more newlines if (m_parser_state.m_current_token.trivia().contains('\n')) return; // ...token is a closing curly brace if (match(TokenType::CurlyClose)) return; // ...token is eof if (match(TokenType::Eof)) return; // No rule for semicolon insertion applies -> syntax error expected("Semicolon"); } Token Parser::consume(TokenType expected_type) { if (!match(expected_type)) { expected(Token::name(expected_type)); } return consume(); } void Parser::expected(const char* what) { syntax_error(String::format("Unexpected token %s. Expected %s", m_parser_state.m_current_token.name(), what)); } void Parser::syntax_error(const String& message, size_t line, size_t column) { if (line == 0 || column == 0) { line = m_parser_state.m_current_token.line_number(); column = m_parser_state.m_current_token.line_column(); } m_parser_state.m_errors.append({ message, line, column }); } void Parser::save_state() { m_saved_state.append(m_parser_state); } void Parser::load_state() { ASSERT(!m_saved_state.is_empty()); m_parser_state = m_saved_state.take_last(); } }