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ladybird/Userland/Shell/PosixLexer.cpp
Ali Mohammad Pur 5e1499d104 Everywhere: Rename {Deprecated => Byte}String 
This commit un-deprecates DeprecatedString, and repurposes it as a byte
string.
As the null state has already been removed, there are no other
particularly hairy blockers in repurposing this type as a byte string
(what it _really_ is).

This commit is auto-generated:
  $ xs=$(ack -l \bDeprecatedString\b\|deprecated_string AK Userland \
    Meta Ports Ladybird Tests Kernel)
  $ perl -pie 's/\bDeprecatedString\b/ByteString/g;
    s/deprecated_string/byte_string/g' $xs
  $ clang-format --style=file -i \
    $(git diff --name-only | grep \.cpp\|\.h)
  $ gn format $(git ls-files '*.gn' '*.gni')
2023-12-17 18:25:10 +03:30

1009 lines
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/*
* Copyright (c) 2022, Ali Mohammad Pur <mpfard@serenityos.org>
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include <AK/CharacterTypes.h>
#include <Shell/PosixLexer.h>
static bool is_operator(StringView text)
{
return Shell::Posix::Token::operator_from_name(text).has_value();
}
static bool is_part_of_operator(StringView text, char ch)
{
StringBuilder builder;
builder.append(text);
builder.append(ch);
return Shell::Posix::Token::operator_from_name(builder.string_view()).has_value();
}
namespace Shell::Posix {
ErrorOr<Vector<Token>> Lexer::batch_next(Optional<Reduction> starting_reduction)
{
if (starting_reduction.has_value())
m_next_reduction = *starting_reduction;
for (; m_next_reduction != Reduction::None;) {
auto result = TRY(reduce(m_next_reduction));
m_next_reduction = result.next_reduction;
if (!result.tokens.is_empty())
return result.tokens;
}
return Vector<Token> {};
}
ExpansionRange Lexer::range(ssize_t offset) const
{
return {
m_state.position.end_offset - m_state.position.start_offset + offset,
0,
};
}
char Lexer::consume()
{
auto ch = m_lexer.consume();
if (ch == '\n') {
m_state.position.end_line.line_number++;
m_state.position.end_line.line_column = 0;
}
m_state.position.end_offset++;
return ch;
}
void Lexer::reconsume(StringView string)
{
for (auto byte : string.bytes()) {
if (byte == '\n') {
m_state.position.end_line.line_number++;
m_state.position.end_line.line_column = 0;
}
m_state.position.end_offset++;
}
}
bool Lexer::consume_specific(char ch)
{
if (m_lexer.peek() == ch) {
consume();
return true;
}
return false;
}
ErrorOr<Lexer::ReductionResult> Lexer::reduce(Reduction reduction)
{
switch (reduction) {
case Reduction::None:
return ReductionResult { {}, Reduction::None };
case Reduction::End:
return reduce_end();
case Reduction::Operator:
return reduce_operator();
case Reduction::Comment:
return reduce_comment();
case Reduction::SingleQuotedString:
return reduce_single_quoted_string();
case Reduction::DoubleQuotedString:
return reduce_double_quoted_string();
case Reduction::Expansion:
return reduce_expansion();
case Reduction::CommandExpansion:
return reduce_command_expansion();
case Reduction::Start:
return reduce_start();
case Reduction::ArithmeticExpansion:
return reduce_arithmetic_expansion();
case Reduction::SpecialParameterExpansion:
return reduce_special_parameter_expansion();
case Reduction::ParameterExpansion:
return reduce_parameter_expansion();
case Reduction::CommandOrArithmeticSubstitutionExpansion:
return reduce_command_or_arithmetic_substitution_expansion();
case Reduction::ExtendedParameterExpansion:
return reduce_extended_parameter_expansion();
case Reduction::HeredocContents:
return reduce_heredoc_contents();
}
VERIFY_NOT_REACHED();
}
ErrorOr<Lexer::ReductionResult> Lexer::reduce_end()
{
return ReductionResult {
.tokens = { Token::eof() },
.next_reduction = Reduction::None,
};
}
Lexer::HeredocKeyResult Lexer::process_heredoc_key(Token const& token)
{
StringBuilder builder;
enum ParseState {
Free,
InDoubleQuotes,
InSingleQuotes,
};
Vector<ParseState, 4> parse_state;
parse_state.append(Free);
bool escaped = false;
bool had_a_single_quote_segment = false;
for (auto byte : token.value.bytes()) {
switch (parse_state.last()) {
case Free:
switch (byte) {
case '"':
if (escaped) {
builder.append(byte);
escaped = false;
} else {
parse_state.append(InDoubleQuotes);
}
break;
case '\'':
if (escaped) {
builder.append(byte);
escaped = false;
} else {
had_a_single_quote_segment = true;
parse_state.append(InSingleQuotes);
}
break;
case '\\':
if (escaped) {
builder.append(byte);
escaped = false;
} else {
escaped = true;
}
break;
default:
// NOTE: bash eats the backslash outside quotes :shrug:
if (escaped && parse_state.last() != Free) {
builder.append('\\');
escaped = false;
}
builder.append(byte);
break;
}
break;
case InDoubleQuotes:
if (!escaped && byte == '"') {
parse_state.take_last();
break;
}
if (escaped) {
if (byte != '"')
builder.append('\\');
builder.append(byte);
break;
}
if (byte == '\\')
escaped = true;
else
builder.append(byte);
break;
case InSingleQuotes:
if (byte == '\'') {
parse_state.take_last();
break;
}
builder.append(byte);
break;
}
}
// NOTE: Not checking the final state as any garbage that even partially parses is allowed to be used as a key :/
return {
.key = builder.to_string().release_value_but_fixme_should_propagate_errors(),
.allow_interpolation = !had_a_single_quote_segment,
};
}
ErrorOr<Lexer::ReductionResult> Lexer::reduce_operator()
{
if (m_lexer.is_eof()) {
if (is_operator(m_state.buffer.string_view())) {
auto tokens = TRY(Token::operators_from(m_state));
m_state.buffer.clear();
m_state.position.start_offset = m_state.position.end_offset;
m_state.position.start_line = m_state.position.end_line;
return ReductionResult {
.tokens = move(tokens),
.next_reduction = Reduction::End,
};
}
return reduce(Reduction::Start);
}
if (is_part_of_operator(m_state.buffer.string_view(), m_lexer.peek())) {
m_state.buffer.append(consume());
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::Operator,
};
}
auto tokens = Vector<Token> {};
if (is_operator(m_state.buffer.string_view())) {
tokens.extend(TRY(Token::operators_from(m_state)));
m_state.buffer.clear();
m_state.position.start_offset = m_state.position.end_offset;
m_state.position.start_line = m_state.position.end_line;
}
auto expect_heredoc_entry = !tokens.is_empty() && (tokens.last().type == Token::Type::DoubleLessDash || tokens.last().type == Token::Type::DoubleLess);
auto result = TRY(reduce(Reduction::Start));
tokens.extend(move(result.tokens));
while (expect_heredoc_entry && tokens.size() == 1 && result.next_reduction != Reduction::None) {
result = TRY(reduce(result.next_reduction));
tokens.extend(move(result.tokens));
}
if (expect_heredoc_entry && tokens.size() > 1) {
auto [key, interpolation] = process_heredoc_key(tokens[1]);
m_state.heredoc_entries.append(HeredocEntry {
.key = key,
.allow_interpolation = interpolation,
.dedent = tokens[0].type == Token::Type::DoubleLessDash,
});
}
return ReductionResult {
.tokens = move(tokens),
.next_reduction = result.next_reduction,
};
}
ErrorOr<Lexer::ReductionResult> Lexer::reduce_comment()
{
if (m_lexer.is_eof()) {
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::End,
};
}
if (consume() == '\n') {
m_state.on_new_line = true;
return ReductionResult {
.tokens = { Token::newline() },
.next_reduction = Reduction::Start,
};
}
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::Comment,
};
}
ErrorOr<Lexer::ReductionResult> Lexer::reduce_single_quoted_string()
{
if (m_lexer.is_eof()) {
auto tokens = TRY(Token::maybe_from_state(m_state));
tokens.append(Token::continuation('\''));
return ReductionResult {
.tokens = move(tokens),
.next_reduction = Reduction::End,
};
}
auto ch = consume();
m_state.buffer.append(ch);
if (ch == '\'') {
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::Start,
};
}
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::SingleQuotedString,
};
}
ErrorOr<Lexer::ReductionResult> Lexer::reduce_double_quoted_string()
{
m_state.previous_reduction = Reduction::DoubleQuotedString;
if (m_lexer.is_eof()) {
auto tokens = TRY(Token::maybe_from_state(m_state));
tokens.append(Token::continuation('"'));
return ReductionResult {
.tokens = move(tokens),
.next_reduction = Reduction::End,
};
}
auto ch = consume();
m_state.buffer.append(ch);
if (m_state.escaping) {
m_state.escaping = false;
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::DoubleQuotedString,
};
}
switch (ch) {
case '\\':
m_state.escaping = true;
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::DoubleQuotedString,
};
case '"':
m_state.previous_reduction = Reduction::Start;
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::Start,
};
case '$':
if (m_lexer.next_is("("))
m_state.expansions.empend(CommandExpansion { .command = StringBuilder {}, .range = range(-1) });
else
m_state.expansions.empend(ParameterExpansion { .parameter = StringBuilder {}, .range = range(-1) });
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::Expansion,
};
case '`':
m_state.expansions.empend(CommandExpansion { .command = StringBuilder {}, .range = range(-1) });
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::CommandExpansion,
};
default:
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::DoubleQuotedString,
};
}
}
ErrorOr<Lexer::ReductionResult> Lexer::reduce_expansion()
{
if (m_lexer.is_eof())
return reduce(m_state.previous_reduction);
auto ch = m_lexer.peek();
switch (ch) {
case '{':
consume();
m_state.buffer.append(ch);
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::ExtendedParameterExpansion,
};
case '(':
consume();
m_state.buffer.append(ch);
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::CommandOrArithmeticSubstitutionExpansion,
};
case 'a' ... 'z':
case 'A' ... 'Z':
case '_': {
consume();
m_state.buffer.append(ch);
auto& expansion = m_state.expansions.last().get<ParameterExpansion>();
expansion.parameter.append(ch);
expansion.range.length = m_state.position.end_offset - expansion.range.start - m_state.position.start_offset;
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::ParameterExpansion,
};
}
case '0' ... '9':
case '-':
case '!':
case '@':
case '#':
case '?':
case '*':
case '$':
return reduce(Reduction::SpecialParameterExpansion);
default:
m_state.buffer.append(ch);
return reduce(m_state.previous_reduction);
}
}
ErrorOr<Lexer::ReductionResult> Lexer::reduce_command_expansion()
{
if (m_lexer.is_eof()) {
auto& expansion = m_state.expansions.last().get<CommandExpansion>();
expansion.range.length = m_state.position.end_offset - expansion.range.start - m_state.position.start_offset;
return ReductionResult {
.tokens = { Token::continuation('`') },
.next_reduction = m_state.previous_reduction,
};
}
auto ch = consume();
if (!m_state.escaping && ch == '`') {
m_state.buffer.append(ch);
auto& expansion = m_state.expansions.last().get<CommandExpansion>();
expansion.range.length = m_state.position.end_offset - expansion.range.start - m_state.position.start_offset;
return ReductionResult {
.tokens = {},
.next_reduction = m_state.previous_reduction,
};
}
if (!m_state.escaping && ch == '\\') {
m_state.escaping = true;
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::CommandExpansion,
};
}
m_state.escaping = false;
m_state.buffer.append(ch);
m_state.expansions.last().get<CommandExpansion>().command.append(ch);
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::CommandExpansion,
};
}
ErrorOr<Lexer::ReductionResult> Lexer::reduce_heredoc_contents()
{
if (m_lexer.is_eof()) {
auto tokens = TRY(Token::maybe_from_state(m_state));
m_state.buffer.clear();
m_state.position.start_offset = m_state.position.end_offset;
m_state.position.start_line = m_state.position.end_line;
return ReductionResult {
.tokens = move(tokens),
.next_reduction = Reduction::End,
};
}
if (!m_state.escaping && consume_specific('\\')) {
m_state.escaping = true;
m_state.buffer.append('\\');
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::HeredocContents,
};
}
if (!m_state.escaping && consume_specific('$')) {
m_state.buffer.append('$');
if (m_lexer.next_is("("))
m_state.expansions.empend(CommandExpansion { .command = StringBuilder {}, .range = range(-1) });
else
m_state.expansions.empend(ParameterExpansion { .parameter = StringBuilder {}, .range = range(-1) });
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::Expansion,
};
}
if (!m_state.escaping && consume_specific('`')) {
m_state.buffer.append('`');
m_state.expansions.empend(CommandExpansion { .command = StringBuilder {}, .range = range(-1) });
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::CommandExpansion,
};
}
m_state.escaping = false;
m_state.buffer.append(consume());
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::HeredocContents,
};
}
ErrorOr<Lexer::ReductionResult> Lexer::reduce_start()
{
auto was_on_new_line = m_state.on_new_line;
m_state.on_new_line = false;
if (m_lexer.is_eof()) {
auto tokens = TRY(Token::maybe_from_state(m_state));
m_state.buffer.clear();
m_state.expansions.clear();
m_state.position.start_offset = m_state.position.end_offset;
m_state.position.start_line = m_state.position.end_line;
return ReductionResult {
.tokens = move(tokens),
.next_reduction = Reduction::End,
};
}
if (was_on_new_line && !m_state.heredoc_entries.is_empty()) {
auto const& entry = m_state.heredoc_entries.first();
auto start_index = m_lexer.tell();
Optional<size_t> end_index;
for (; !m_lexer.is_eof();) {
auto index = m_lexer.tell();
auto possible_end_index = m_lexer.tell();
if (m_lexer.consume_specific('\n')) {
if (entry.dedent)
m_lexer.ignore_while(is_any_of("\t"sv));
if (m_lexer.consume_specific(entry.key.bytes_as_string_view())) {
if (m_lexer.consume_specific('\n') || m_lexer.is_eof()) {
end_index = possible_end_index;
break;
}
}
}
if (m_lexer.tell() == index)
m_lexer.ignore();
}
auto contents = m_lexer.input().substring_view(start_index, end_index.value_or(m_lexer.tell()) - start_index);
reconsume(contents);
if (end_index.has_value())
reconsume(m_lexer.input().substring_view_starting_after_substring(contents).substring_view(0, m_lexer.tell() - *end_index));
m_state.buffer.clear();
m_state.buffer.append(contents);
auto token = TRY(Token::maybe_from_state(m_state)).first();
token.relevant_heredoc_key = entry.key;
token.type = Token::Type::HeredocContents;
m_state.heredoc_entries.take_first();
m_state.on_new_line = true;
m_state.buffer.clear();
m_state.position.start_offset = m_state.position.end_offset;
m_state.position.start_line = m_state.position.end_line;
Vector<Token> tokens { move(token), Token::newline() };
return ReductionResult {
.tokens = move(tokens),
.next_reduction = Reduction::Start,
};
}
if (m_state.escaping && consume_specific('\n')) {
m_state.escaping = false;
auto buffer = m_state.buffer.to_byte_string().substring(0, m_state.buffer.length() - 1);
m_state.buffer.clear();
m_state.buffer.append(buffer);
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::Start,
};
}
if (!m_state.escaping && m_lexer.peek() == '#' && m_state.buffer.is_empty()) {
consume();
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::Comment,
};
}
if (!m_state.escaping && consume_specific('\n')) {
auto tokens = TRY(Token::maybe_from_state(m_state));
tokens.append(Token::newline());
m_state.on_new_line = true;
m_state.buffer.clear();
m_state.expansions.clear();
m_state.position.start_offset = m_state.position.end_offset;
m_state.position.start_line = m_state.position.end_line;
return ReductionResult {
.tokens = move(tokens),
.next_reduction = Reduction::Start,
};
}
if (!m_state.escaping && consume_specific('\\')) {
m_state.escaping = true;
m_state.buffer.append('\\');
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::Start,
};
}
if (!m_state.escaping && consume_specific('\'')) {
m_state.buffer.append('\'');
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::SingleQuotedString,
};
}
if (!m_state.escaping && consume_specific('"')) {
m_state.buffer.append('"');
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::DoubleQuotedString,
};
}
if (!m_state.escaping && is_ascii_space(m_lexer.peek())) {
consume();
auto tokens = TRY(Token::maybe_from_state(m_state));
m_state.buffer.clear();
m_state.expansions.clear();
m_state.position.start_offset = m_state.position.end_offset;
m_state.position.start_line = m_state.position.end_line;
return ReductionResult {
.tokens = move(tokens),
.next_reduction = Reduction::Start,
};
}
if (!m_state.escaping && consume_specific('$')) {
m_state.buffer.append('$');
if (m_lexer.next_is("("))
m_state.expansions.empend(CommandExpansion { .command = StringBuilder {}, .range = range(-1) });
else
m_state.expansions.empend(ParameterExpansion { .parameter = StringBuilder {}, .range = range(-1) });
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::Expansion,
};
}
if (!m_state.escaping && consume_specific('`')) {
m_state.buffer.append('`');
m_state.expansions.empend(CommandExpansion { .command = StringBuilder {}, .range = range(-1) });
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::CommandExpansion,
};
}
if (!m_state.escaping && m_state.in_skip_mode && is_any_of("})"sv)(m_lexer.peek())) {
// That's an eof for us.
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::None,
};
}
if (!m_state.escaping && is_part_of_operator(""sv, m_lexer.peek())) {
auto tokens = TRY(Token::maybe_from_state(m_state));
m_state.buffer.clear();
m_state.buffer.append(consume());
m_state.expansions.clear();
m_state.position.start_offset = m_state.position.end_offset;
m_state.position.start_line = m_state.position.end_line;
return ReductionResult {
.tokens = move(tokens),
.next_reduction = Reduction::Operator,
};
}
m_state.escaping = false;
m_state.buffer.append(consume());
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::Start,
};
}
ErrorOr<Lexer::ReductionResult> Lexer::reduce_arithmetic_expansion()
{
if (m_lexer.is_eof()) {
auto& expansion = m_state.expansions.last().get<ArithmeticExpansion>();
expansion.range.length = m_state.position.end_offset - expansion.range.start - m_state.position.start_offset;
return ReductionResult {
.tokens = { Token::continuation("$(("_string) },
.next_reduction = m_state.previous_reduction,
};
}
if (m_lexer.peek() == ')' && m_state.buffer.string_view().ends_with(')')) {
m_state.buffer.append(consume());
auto& expansion = m_state.expansions.last().get<ArithmeticExpansion>();
expansion.expression = TRY(String::from_utf8(expansion.value.string_view().substring_view(0, expansion.value.length() - 1)));
expansion.value.clear();
expansion.range.length = m_state.position.end_offset - expansion.range.start - m_state.position.start_offset;
return ReductionResult {
.tokens = {},
.next_reduction = m_state.previous_reduction,
};
}
auto ch = consume();
m_state.buffer.append(ch);
m_state.expansions.last().get<ArithmeticExpansion>().value.append(ch);
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::ArithmeticExpansion,
};
}
ErrorOr<Lexer::ReductionResult> Lexer::reduce_special_parameter_expansion()
{
auto ch = consume();
m_state.buffer.append(ch);
m_state.expansions.last() = ParameterExpansion {
.parameter = StringBuilder {},
.range = range(-2),
};
auto& expansion = m_state.expansions.last().get<ParameterExpansion>();
expansion.parameter.append(ch);
expansion.range.length = m_state.position.end_offset - expansion.range.start - m_state.position.start_offset;
return ReductionResult {
.tokens = {},
.next_reduction = m_state.previous_reduction,
};
}
ErrorOr<Lexer::ReductionResult> Lexer::reduce_parameter_expansion()
{
auto& expansion = m_state.expansions.last().get<ParameterExpansion>();
if (m_lexer.is_eof()) {
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::Start,
};
}
auto next = m_lexer.peek();
if (is_ascii_alphanumeric(next) || next == '_') {
m_state.buffer.append(consume());
expansion.parameter.append(next);
expansion.range.length = m_state.position.end_offset - expansion.range.start - m_state.position.start_offset;
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::ParameterExpansion,
};
}
return reduce(m_state.previous_reduction);
}
ErrorOr<Lexer::ReductionResult> Lexer::reduce_command_or_arithmetic_substitution_expansion()
{
auto ch = m_lexer.peek();
if (ch == '(' && m_state.buffer.string_view().ends_with("$("sv)) {
m_state.buffer.append(consume());
m_state.expansions.last() = ArithmeticExpansion {
.expression = {},
.value = StringBuilder {},
.range = range(-2)
};
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::ArithmeticExpansion,
};
}
auto saved_position = m_state.position;
{
auto skip_mode = switch_to_skip_mode();
auto next_reduction = Reduction::Start;
do {
auto result = TRY(reduce(next_reduction));
next_reduction = result.next_reduction;
} while (next_reduction != Reduction::None);
saved_position = m_state.position;
}
auto const skipped_text = m_lexer.input().substring_view(m_state.position.end_offset, saved_position.end_offset - m_state.position.end_offset);
m_state.position.end_offset = saved_position.end_offset;
m_state.position.end_line = saved_position.end_line;
m_state.buffer.append(skipped_text);
m_state.expansions.last().get<CommandExpansion>().command.append(skipped_text);
m_state.expansions.last().visit([&](auto& expansion) {
expansion.range.length = m_state.position.end_offset - expansion.range.start - m_state.position.start_offset;
});
if (m_lexer.is_eof()) {
return ReductionResult {
.tokens = { Token::continuation("$("_string) },
.next_reduction = m_state.previous_reduction,
};
}
ch = m_lexer.peek();
if (ch == '(' && m_state.buffer.string_view().ends_with("$("sv)) {
m_state.buffer.append(consume());
m_state.expansions.last() = ArithmeticExpansion {
.expression = {},
.value = m_state.expansions.last().get<CommandExpansion>().command,
.range = range(-2)
};
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::ArithmeticExpansion,
};
}
if (ch == ')') {
m_state.buffer.append(consume());
m_state.expansions.last().visit([&](auto& expansion) {
expansion.range.length = m_state.position.end_offset - expansion.range.start - m_state.position.start_offset;
});
return ReductionResult {
.tokens = {},
.next_reduction = m_state.previous_reduction,
};
}
m_state.buffer.append(consume());
m_state.expansions.last().get<CommandExpansion>().command.append(ch);
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::CommandOrArithmeticSubstitutionExpansion,
};
}
ErrorOr<Lexer::ReductionResult> Lexer::reduce_extended_parameter_expansion()
{
auto& expansion = m_state.expansions.last().get<ParameterExpansion>();
if (m_lexer.is_eof()) {
return ReductionResult {
.tokens = { Token::continuation("${"_string) },
.next_reduction = m_state.previous_reduction,
};
}
auto ch = m_lexer.peek();
if (ch == '}') {
m_state.buffer.append(consume());
expansion.range.length = m_state.position.end_offset - expansion.range.start - m_state.position.start_offset;
return ReductionResult {
.tokens = {},
.next_reduction = m_state.previous_reduction,
};
}
m_state.buffer.append(consume());
expansion.parameter.append(ch);
expansion.range.length = m_state.position.end_offset - expansion.range.start - m_state.position.start_offset;
return ReductionResult {
.tokens = {},
.next_reduction = Reduction::ExtendedParameterExpansion,
};
}
StringView Token::type_name() const
{
switch (type) {
case Type::Eof:
return "Eof"sv;
case Type::Newline:
return "Newline"sv;
case Type::Continuation:
return "Continuation"sv;
case Type::Token:
return "Token"sv;
case Type::And:
return "And"sv;
case Type::Pipe:
return "Pipe"sv;
case Type::OpenParen:
return "OpenParen"sv;
case Type::CloseParen:
return "CloseParen"sv;
case Type::Great:
return "Great"sv;
case Type::Less:
return "Less"sv;
case Type::AndIf:
return "AndIf"sv;
case Type::OrIf:
return "OrIf"sv;
case Type::DoubleSemicolon:
return "DoubleSemicolon"sv;
case Type::DoubleLess:
return "DoubleLess"sv;
case Type::DoubleGreat:
return "DoubleGreat"sv;
case Type::LessAnd:
return "LessAnd"sv;
case Type::GreatAnd:
return "GreatAnd"sv;
case Type::LessGreat:
return "LessGreat"sv;
case Type::DoubleLessDash:
return "DoubleLessDash"sv;
case Type::Clobber:
return "Clobber"sv;
case Type::Semicolon:
return "Semicolon"sv;
case Type::HeredocContents:
return "HeredocContents"sv;
case Type::AssignmentWord:
return "AssignmentWord"sv;
case Type::ListAssignmentWord:
return "ListAssignmentWord"sv;
case Type::Bang:
return "Bang"sv;
case Type::Case:
return "Case"sv;
case Type::CloseBrace:
return "CloseBrace"sv;
case Type::Do:
return "Do"sv;
case Type::Done:
return "Done"sv;
case Type::Elif:
return "Elif"sv;
case Type::Else:
return "Else"sv;
case Type::Esac:
return "Esac"sv;
case Type::Fi:
return "Fi"sv;
case Type::For:
return "For"sv;
case Type::If:
return "If"sv;
case Type::In:
return "In"sv;
case Type::IoNumber:
return "IoNumber"sv;
case Type::OpenBrace:
return "OpenBrace"sv;
case Type::Then:
return "Then"sv;
case Type::Until:
return "Until"sv;
case Type::VariableName:
return "VariableName"sv;
case Type::While:
return "While"sv;
case Type::Word:
return "Word"sv;
}
return "Idk"sv;
}
}
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