ladybird/Libraries/LibJS/Token.cpp

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/*
* Copyright (c) 2020, Stephan Unverwerth <s.unverwerth@serenityos.org>
* Copyright (c) 2020-2021, Linus Groh <linusg@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include "Token.h"
#include <AK/Assertions.h>
#include <AK/CharacterTypes.h>
#include <AK/FloatingPointStringConversions.h>
#include <AK/GenericLexer.h>
#include <AK/StringBuilder.h>
namespace JS {
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char const* Token::name(TokenType type)
{
switch (type) {
#define __ENUMERATE_JS_TOKEN(type, category) \
case TokenType::type: \
return #type;
ENUMERATE_JS_TOKENS
#undef __ENUMERATE_JS_TOKEN
default:
VERIFY_NOT_REACHED();
return "<Unknown>";
}
}
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char const* Token::name() const
{
return name(m_type);
}
TokenCategory Token::category(TokenType type)
{
switch (type) {
#define __ENUMERATE_JS_TOKEN(type, category) \
case TokenType::type: \
return TokenCategory::category;
ENUMERATE_JS_TOKENS
#undef __ENUMERATE_JS_TOKEN
default:
VERIFY_NOT_REACHED();
}
}
TokenCategory Token::category() const
{
return category(m_type);
}
double Token::double_value() const
{
VERIFY(type() == TokenType::NumericLiteral);
Vector<char, 32> buffer;
for (auto ch : value()) {
if (ch == '_')
continue;
buffer.append(ch);
}
buffer.append('\0');
auto value_string = StringView { buffer.data(), buffer.size() - 1 };
if (value_string[0] == '0' && value_string.length() >= 2) {
if (value_string[1] == 'x' || value_string[1] == 'X') {
// hexadecimal
return static_cast<double>(strtoul(value_string.characters_without_null_termination() + 2, nullptr, 16));
} else if (value_string[1] == 'o' || value_string[1] == 'O') {
// octal
return static_cast<double>(strtoul(value_string.characters_without_null_termination() + 2, nullptr, 8));
} else if (value_string[1] == 'b' || value_string[1] == 'B') {
// binary
return static_cast<double>(strtoul(value_string.characters_without_null_termination() + 2, nullptr, 2));
} else if (is_ascii_digit(value_string[1])) {
// also octal, but syntax error in strict mode
if (!value().contains('8') && !value().contains('9'))
return static_cast<double>(strtoul(value_string.characters_without_null_termination() + 1, nullptr, 8));
}
}
// This should always be a valid double
return value_string.to_number<double>().release_value();
}
static u32 hex2int(char x)
{
VERIFY(is_ascii_hex_digit(x));
if (x >= '0' && x <= '9')
return x - '0';
return 10u + (to_ascii_lowercase(x) - 'a');
}
ByteString Token::string_value(StringValueStatus& status) const
{
VERIFY(type() == TokenType::StringLiteral || type() == TokenType::TemplateLiteralString);
auto is_template = type() == TokenType::TemplateLiteralString;
GenericLexer lexer(is_template ? value() : value().substring_view(1, value().length() - 2));
LibJS: Add template literals Adds fully functioning template literals. Because template literals contain expressions, most of the work has to be done in the Lexer rather than the Parser. And because of the complexity of template literals (expressions, nesting, escapes, etc), the Lexer needs to have some template-related state. When entering a new template literal, a TemplateLiteralStart token is emitted. When inside a literal, all text will be parsed up until a '${' or '`' (or EOF, but that's a syntax error) is seen, and then a TemplateLiteralExprStart token is emitted. At this point, the Lexer proceeds as normal, however it keeps track of the number of opening and closing curly braces it has seen in order to determine the close of the expression. Once it finds a matching curly brace for the '${', a TemplateLiteralExprEnd token is emitted and the state is updated accordingly. When the Lexer is inside of a template literal, but not an expression, and sees a '`', this must be the closing grave: a TemplateLiteralEnd token is emitted. The state required to correctly parse template strings consists of a vector (for nesting) of two pieces of information: whether or not we are in a template expression (as opposed to a template string); and the count of the number of unmatched open curly braces we have seen (only applicable if the Lexer is currently in a template expression). TODO: Add support for template literal newlines in the JS REPL (this will cause a syntax error currently): > `foo > bar` 'foo bar'
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auto encoding_failure = [&status](StringValueStatus parse_status) -> ByteString {
status = parse_status;
return {};
};
StringBuilder builder;
while (!lexer.is_eof()) {
// No escape, consume one char and continue
if (!lexer.next_is('\\')) {
if (is_template && lexer.next_is('\r')) {
lexer.ignore();
if (lexer.next_is('\n'))
lexer.ignore();
builder.append('\n');
continue;
}
builder.append(lexer.consume());
continue;
}
// Unicode escape
if (lexer.next_is("\\u"sv)) {
auto code_point_or_error = lexer.consume_escaped_code_point();
if (code_point_or_error.is_error()) {
switch (code_point_or_error.error()) {
case GenericLexer::UnicodeEscapeError::MalformedUnicodeEscape:
return encoding_failure(StringValueStatus::MalformedUnicodeEscape);
case GenericLexer::UnicodeEscapeError::UnicodeEscapeOverflow:
return encoding_failure(StringValueStatus::UnicodeEscapeOverflow);
}
}
builder.append_code_point(code_point_or_error.value());
continue;
}
lexer.ignore();
VERIFY(!lexer.is_eof());
// Line continuation
if (lexer.next_is('\n') || lexer.next_is('\r')) {
if (lexer.next_is("\r\n"))
lexer.ignore();
lexer.ignore();
continue;
}
// Line continuation
if (lexer.next_is(LINE_SEPARATOR_STRING) || lexer.next_is(PARAGRAPH_SEPARATOR_STRING)) {
lexer.ignore(3);
continue;
}
// Null-byte escape
if (lexer.next_is('0') && !is_ascii_digit(lexer.peek(1))) {
lexer.ignore();
builder.append('\0');
continue;
}
// Hex escape
if (lexer.next_is('x')) {
lexer.ignore();
if (!is_ascii_hex_digit(lexer.peek()) || !is_ascii_hex_digit(lexer.peek(1)))
return encoding_failure(StringValueStatus::MalformedHexEscape);
auto code_point = hex2int(lexer.consume()) * 16 + hex2int(lexer.consume());
VERIFY(code_point <= 255);
builder.append_code_point(code_point);
continue;
}
// In non-strict mode LegacyOctalEscapeSequence is allowed in strings:
// https://tc39.es/ecma262/#sec-additional-syntax-string-literals
Optional<ByteString> octal_str;
auto is_octal_digit = [](char ch) { return ch >= '0' && ch <= '7'; };
auto is_zero_to_three = [](char ch) { return ch >= '0' && ch <= '3'; };
auto is_four_to_seven = [](char ch) { return ch >= '4' && ch <= '7'; };
// OctalDigit [lookahead ∉ OctalDigit]
if (is_octal_digit(lexer.peek()) && !is_octal_digit(lexer.peek(1)))
octal_str = lexer.consume(1);
// ZeroToThree OctalDigit [lookahead ∉ OctalDigit]
else if (is_zero_to_three(lexer.peek()) && is_octal_digit(lexer.peek(1)) && !is_octal_digit(lexer.peek(2)))
octal_str = lexer.consume(2);
// FourToSeven OctalDigit
else if (is_four_to_seven(lexer.peek()) && is_octal_digit(lexer.peek(1)))
octal_str = lexer.consume(2);
// ZeroToThree OctalDigit OctalDigit
else if (is_zero_to_three(lexer.peek()) && is_octal_digit(lexer.peek(1)) && is_octal_digit(lexer.peek(2)))
octal_str = lexer.consume(3);
if (octal_str.has_value()) {
status = StringValueStatus::LegacyOctalEscapeSequence;
auto code_point = strtoul(octal_str->characters(), nullptr, 8);
VERIFY(code_point <= 255);
builder.append_code_point(code_point);
continue;
}
if (lexer.next_is('8') || lexer.next_is('9')) {
status = StringValueStatus::LegacyOctalEscapeSequence;
builder.append(lexer.consume());
continue;
}
lexer.retreat();
builder.append(lexer.consume_escaped_character('\\', "b\bf\fn\nr\rt\tv\v"sv));
}
return builder.to_byte_string();
}
// 12.8.6.2 Static Semantics: TRV, https://tc39.es/ecma262/#sec-static-semantics-trv
ByteString Token::raw_template_value() const
{
return value().replace("\r\n"sv, "\n"sv, ReplaceMode::All).replace("\r"sv, "\n"sv, ReplaceMode::All);
}
bool Token::bool_value() const
{
VERIFY(type() == TokenType::BoolLiteral);
return value() == "true";
}
bool Token::is_identifier_name() const
{
// IdentifierNames are Identifiers + ReservedWords
// The standard defines this reversed: Identifiers are IdentifierNames except reserved words
// https://tc39.es/ecma262/#prod-Identifier
return m_type == TokenType::Identifier
|| m_type == TokenType::EscapedKeyword
|| m_type == TokenType::Await
|| m_type == TokenType::Async
|| m_type == TokenType::BoolLiteral
|| m_type == TokenType::Break
|| m_type == TokenType::Case
|| m_type == TokenType::Catch
|| m_type == TokenType::Class
|| m_type == TokenType::Const
|| m_type == TokenType::Continue
|| m_type == TokenType::Debugger
|| m_type == TokenType::Default
|| m_type == TokenType::Delete
|| m_type == TokenType::Do
|| m_type == TokenType::Else
|| m_type == TokenType::Enum
|| m_type == TokenType::Export
|| m_type == TokenType::Extends
|| m_type == TokenType::Finally
|| m_type == TokenType::For
|| m_type == TokenType::Function
|| m_type == TokenType::If
|| m_type == TokenType::Import
|| m_type == TokenType::In
|| m_type == TokenType::Instanceof
|| m_type == TokenType::Let
|| m_type == TokenType::New
|| m_type == TokenType::NullLiteral
|| m_type == TokenType::Return
|| m_type == TokenType::Super
|| m_type == TokenType::Switch
|| m_type == TokenType::This
|| m_type == TokenType::Throw
|| m_type == TokenType::Try
|| m_type == TokenType::Typeof
|| m_type == TokenType::Var
|| m_type == TokenType::Void
|| m_type == TokenType::While
|| m_type == TokenType::With
|| m_type == TokenType::Yield;
}
bool Token::trivia_contains_line_terminator() const
{
return m_trivia.contains('\n') || m_trivia.contains('\r') || m_trivia.contains(LINE_SEPARATOR_STRING) || m_trivia.contains(PARAGRAPH_SEPARATOR_STRING);
}
}