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ladybird/Userland/Shell/AST.cpp
Shannon Booth e800605ad3 AK+LibURL: Move AK::URL into a new URL library 
This URL library ends up being a relatively fundamental base library of
the system, as LibCore depends on LibURL.

This change has two main benefits:
 * Moving AK back more towards being an agnostic library that can
   be used between the kernel and userspace. URL has never really fit
   that description - and is not used in the kernel.
 * URL _should_ depend on LibUnicode, as it needs punnycode support.
   However, it's not really possible to do this inside of AK as it can't
   depend on any external library. This change brings us a little closer
   to being able to do that, but unfortunately we aren't there quite
   yet, as the code generators depend on LibCore.
2024-03-18 14:06:28 -04:00

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/*
* Copyright (c) 2020, the SerenityOS developers.
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include "AST.h"
#include "Shell.h"
#include <AK/Find.h>
#include <AK/MemoryStream.h>
#include <AK/ScopeGuard.h>
#include <AK/ScopedValueRollback.h>
#include <AK/String.h>
#include <AK/StringBuilder.h>
#include <LibCore/EventLoop.h>
#include <LibFileSystem/FileSystem.h>
#include <LibURL/URL.h>
#include <errno.h>
#include <fcntl.h>
#include <signal.h>
#include <unistd.h>
ErrorOr<void> AK::Formatter<Shell::AST::Command>::format(FormatBuilder& builder, Shell::AST::Command const& value)
{
if (m_sign_mode != FormatBuilder::SignMode::Default)
VERIFY_NOT_REACHED();
if (m_alternative_form)
VERIFY_NOT_REACHED();
if (m_zero_pad)
VERIFY_NOT_REACHED();
if (m_mode != Mode::Default && m_mode != Mode::String)
VERIFY_NOT_REACHED();
if (m_width.has_value())
VERIFY_NOT_REACHED();
if (m_precision.has_value())
VERIFY_NOT_REACHED();
if (value.argv.is_empty()) {
TRY(builder.put_literal("(ShellInternal)"sv));
} else {
bool first = true;
for (auto& arg : value.argv) {
if (!first)
TRY(builder.put_literal(" "sv));
first = false;
TRY(builder.put_literal(arg));
}
}
for (auto& redir : value.redirections) {
TRY(builder.put_padding(' ', 1));
if (redir->is_path_redirection()) {
auto path_redir = static_cast<Shell::AST::PathRedirection const*>(redir.ptr());
TRY(builder.put_i64(path_redir->fd));
switch (path_redir->direction) {
case Shell::AST::PathRedirection::Read:
TRY(builder.put_literal("<"sv));
break;
case Shell::AST::PathRedirection::Write:
TRY(builder.put_literal(">"sv));
break;
case Shell::AST::PathRedirection::WriteAppend:
TRY(builder.put_literal(">>"sv));
break;
case Shell::AST::PathRedirection::ReadWrite:
TRY(builder.put_literal("<>"sv));
break;
}
TRY(builder.put_literal(path_redir->path));
} else if (redir->is_fd_redirection()) {
auto* fdredir = static_cast<Shell::AST::FdRedirection const*>(redir.ptr());
TRY(builder.put_i64(fdredir->new_fd));
TRY(builder.put_literal(">"sv));
TRY(builder.put_i64(fdredir->old_fd));
} else if (redir->is_close_redirection()) {
auto close_redir = static_cast<Shell::AST::CloseRedirection const*>(redir.ptr());
TRY(builder.put_i64(close_redir->fd));
TRY(builder.put_literal(">&-"sv));
} else {
VERIFY_NOT_REACHED();
}
}
if (!value.next_chain.is_empty()) {
for (auto& command : value.next_chain) {
switch (command.action) {
case Shell::AST::NodeWithAction::And:
TRY(builder.put_literal(" && "sv));
break;
case Shell::AST::NodeWithAction::Or:
TRY(builder.put_literal(" || "sv));
break;
case Shell::AST::NodeWithAction::Sequence:
TRY(builder.put_literal("; "sv));
break;
}
TRY(builder.put_literal("("sv));
TRY(builder.put_literal(command.node->class_name()));
TRY(builder.put_literal("...)"sv));
}
}
if (!value.should_wait)
TRY(builder.put_literal("&"sv));
return {};
}
namespace Shell::AST {
template<typename... Args>
static inline void print_indented(int indent, CheckedFormatString<Args...> format, Args&&... args)
{
auto str = ByteString::formatted(format.view(), forward<Args>(args)...);
dbgln("{: >{}}", str, str.length() + indent * 2);
}
static inline Optional<Position> merge_positions(Optional<Position> const& left, Optional<Position> const& right)
{
if (!left.has_value())
return right;
if (!right.has_value())
return left;
return Position {
.start_offset = left->start_offset,
.end_offset = right->end_offset,
.start_line = left->start_line,
.end_line = right->end_line,
};
}
static inline Vector<Command> join_commands(Vector<Command> left, Vector<Command> right)
{
Command command;
auto last_in_left = left.take_last();
auto first_in_right = right.take_first();
command.argv.extend(last_in_left.argv);
command.argv.extend(first_in_right.argv);
command.redirections.extend(last_in_left.redirections);
command.redirections.extend(first_in_right.redirections);
command.should_wait = first_in_right.should_wait && last_in_left.should_wait;
command.is_pipe_source = first_in_right.is_pipe_source;
command.should_notify_if_in_background = first_in_right.should_notify_if_in_background || last_in_left.should_notify_if_in_background;
command.position = merge_positions(last_in_left.position, first_in_right.position);
Vector<Command> commands;
commands.extend(left);
commands.append(command);
commands.extend(right);
return commands;
}
static ErrorOr<String> resolve_slices(RefPtr<Shell> shell, String&& input_value, Vector<NonnullRefPtr<Slice>> slices)
{
if (slices.is_empty())
return move(input_value);
for (auto& slice : slices) {
auto value = TRY(slice->run(shell));
if (shell && shell->has_any_error())
break;
if (!value) {
shell->raise_error(Shell::ShellError::InvalidSliceContentsError, "Invalid slice contents", slice->position());
return move(input_value);
}
auto index_values = TRY(value->resolve_as_list(shell));
Vector<size_t> indices;
indices.ensure_capacity(index_values.size());
size_t i = 0;
for (auto& value : index_values) {
auto maybe_index = value.bytes_as_string_view().to_number<int>();
if (!maybe_index.has_value()) {
shell->raise_error(Shell::ShellError::InvalidSliceContentsError, ByteString::formatted("Invalid value in slice index {}: {} (expected a number)", i, value), slice->position());
return move(input_value);
}
++i;
auto index = maybe_index.value();
auto original_index = index;
if (index < 0)
index += input_value.bytes_as_string_view().length();
if (index < 0 || (size_t)index >= input_value.bytes_as_string_view().length()) {
shell->raise_error(Shell::ShellError::InvalidSliceContentsError, ByteString::formatted("Slice index {} (evaluated as {}) out of value bounds [0-{})", index, original_index, input_value.bytes_as_string_view().length()), slice->position());
return move(input_value);
}
indices.unchecked_append(index);
}
StringBuilder builder { indices.size() };
for (auto& index : indices)
builder.append(input_value.bytes_as_string_view()[index]);
input_value = TRY(builder.to_string());
}
return move(input_value);
}
static ErrorOr<Vector<String>> resolve_slices(RefPtr<Shell> shell, Vector<String>&& values, Vector<NonnullRefPtr<Slice>> slices)
{
if (slices.is_empty())
return move(values);
for (auto& slice : slices) {
auto value = TRY(slice->run(shell));
if (shell && shell->has_any_error())
break;
if (!value) {
shell->raise_error(Shell::ShellError::InvalidSliceContentsError, "Invalid slice contents", slice->position());
return move(values);
}
auto index_values = TRY(value->resolve_as_list(shell));
Vector<size_t> indices;
indices.ensure_capacity(index_values.size());
size_t i = 0;
for (auto& value : index_values) {
auto maybe_index = value.to_number<int>();
if (!maybe_index.has_value()) {
shell->raise_error(Shell::ShellError::InvalidSliceContentsError, ByteString::formatted("Invalid value in slice index {}: {} (expected a number)", i, value), slice->position());
return move(values);
}
++i;
auto index = maybe_index.value();
auto original_index = index;
if (index < 0)
index += values.size();
if (index < 0 || (size_t)index >= values.size()) {
shell->raise_error(Shell::ShellError::InvalidSliceContentsError, ByteString::formatted("Slice index {} (evaluated as {}) out of value bounds [0-{})", index, original_index, values.size()), slice->position());
return move(values);
}
indices.unchecked_append(index);
}
Vector<String> result;
result.ensure_capacity(indices.size());
for (auto& index : indices)
result.unchecked_append(values[index]);
values = move(result);
}
return move(values);
}
void Node::clear_syntax_error()
{
m_syntax_error_node->clear_syntax_error();
}
void Node::set_is_syntax_error(SyntaxError& error_node)
{
if (!m_syntax_error_node) {
m_syntax_error_node = error_node;
} else {
m_syntax_error_node->set_is_syntax_error(error_node);
}
}
bool Node::is_syntax_error() const
{
return m_syntax_error_node && m_syntax_error_node->is_syntax_error();
}
ErrorOr<void> Node::for_each_entry(RefPtr<Shell> shell, Function<ErrorOr<IterationDecision>(NonnullRefPtr<Value>)> callback)
{
auto value = TRY(TRY(run(shell))->resolve_without_cast(shell));
if (shell && shell->has_any_error())
return {};
if (value->is_job()) {
TRY(callback(value));
return {};
}
if (value->is_list_without_resolution()) {
auto list = TRY(value->resolve_without_cast(shell));
for (auto& element : static_cast<ListValue*>(list.ptr())->values()) {
if (TRY(callback(element)) == IterationDecision::Break)
break;
}
return {};
}
auto list = TRY(value->resolve_as_list(shell));
for (auto& element : list) {
if (TRY(callback(make_ref_counted<StringValue>(move(element)))) == IterationDecision::Break)
break;
}
return {};
}
ErrorOr<Vector<Command>> Node::to_lazy_evaluated_commands(RefPtr<Shell> shell)
{
if (would_execute()) {
// Wrap the node in a "should immediately execute next" command.
return Vector {
Command { {}, {}, true, false, true, true, {}, { NodeWithAction(*this, NodeWithAction::Sequence) }, position() }
};
}
return TRY(TRY(run(shell))->resolve_as_commands(shell));
}
ErrorOr<void> Node::dump(int level) const
{
print_indented(level,
"{} at {}:{} (from {}.{} to {}.{})",
class_name(),
m_position.start_offset,
m_position.end_offset,
m_position.start_line.line_number,
m_position.start_line.line_column,
m_position.end_line.line_number,
m_position.end_line.line_column);
return {};
}
Node::Node(Position position)
: m_position(position)
{
}
ErrorOr<Vector<Line::CompletionSuggestion>> Node::complete_for_editor(Shell& shell, size_t offset, HitTestResult const& hit_test_result) const
{
auto matching_node = hit_test_result.matching_node;
if (matching_node) {
auto kind = matching_node->kind();
StringLiteral::EnclosureType enclosure_type = StringLiteral::EnclosureType::None;
if (kind == Kind::StringLiteral)
enclosure_type = static_cast<StringLiteral const*>(matching_node.ptr())->enclosure_type();
auto set_results_trivia = [enclosure_type](Vector<Line::CompletionSuggestion>&& suggestions) {
if (enclosure_type != StringLiteral::EnclosureType::None) {
for (auto& entry : suggestions)
entry.trailing_trivia = String::from_code_point(static_cast<u32>(enclosure_type == StringLiteral::EnclosureType::SingleQuotes ? '\'' : '"'));
}
return suggestions;
};
if (kind == Kind::BarewordLiteral || kind == Kind::StringLiteral) {
Shell::EscapeMode escape_mode;
StringView text;
size_t corrected_offset;
if (kind == Kind::BarewordLiteral) {
auto* node = static_cast<BarewordLiteral const*>(matching_node.ptr());
text = node->text();
escape_mode = Shell::EscapeMode::Bareword;
corrected_offset = find_offset_into_node(text, offset - matching_node->position().start_offset, escape_mode);
} else {
auto* node = static_cast<StringLiteral const*>(matching_node.ptr());
text = node->text();
escape_mode = enclosure_type == StringLiteral::EnclosureType::SingleQuotes ? Shell::EscapeMode::SingleQuotedString : Shell::EscapeMode::DoubleQuotedString;
corrected_offset = find_offset_into_node(text, offset - matching_node->position().start_offset + 1, escape_mode);
}
if (corrected_offset > text.length())
return Vector<Line::CompletionSuggestion> {};
// If the literal isn't an option, treat it as a path.
if (!(text.starts_with('-') || text == "--" || text == "-"))
return set_results_trivia(shell.complete_path(""sv, text, corrected_offset, Shell::ExecutableOnly::No, hit_test_result.closest_command_node.ptr(), hit_test_result.matching_node, escape_mode));
// If the literal is an option, we have to know the program name
// should we have no way to get that, bail early.
if (!hit_test_result.closest_command_node)
return Vector<Line::CompletionSuggestion> {};
auto program_name_node = hit_test_result.closest_command_node->leftmost_trivial_literal();
if (!program_name_node)
return Vector<Line::CompletionSuggestion> {};
String program_name;
if (program_name_node->is_bareword())
program_name = static_cast<BarewordLiteral const*>(program_name_node.ptr())->text();
else
program_name = static_cast<StringLiteral const*>(program_name_node.ptr())->text();
return set_results_trivia(shell.complete_option(program_name, text, corrected_offset, hit_test_result.closest_command_node.ptr(), hit_test_result.matching_node));
}
return Vector<Line::CompletionSuggestion> {};
}
auto result = hit_test_position(offset);
if (!result.matching_node)
return shell.complete_path(""sv, ""sv, 0, Shell::ExecutableOnly::No, result.closest_command_node.ptr(), nullptr, Shell::EscapeMode::Bareword);
auto node = result.matching_node;
if (node->is_bareword() || node != result.closest_node_with_semantic_meaning)
node = result.closest_node_with_semantic_meaning;
if (!node)
return Vector<Line::CompletionSuggestion> {};
return node->complete_for_editor(shell, offset, result);
}
ErrorOr<Vector<Line::CompletionSuggestion>> Node::complete_for_editor(Shell& shell, size_t offset)
{
return Node::complete_for_editor(shell, offset, { nullptr, nullptr, nullptr });
}
ErrorOr<void> And::dump(int level) const
{
TRY(Node::dump(level));
TRY(m_left->dump(level + 1));
TRY(m_right->dump(level + 1));
return {};
}
ErrorOr<RefPtr<Value>> And::run(RefPtr<Shell> shell)
{
auto commands = TRY(m_left->to_lazy_evaluated_commands(shell));
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
commands.last().next_chain.append(NodeWithAction { *m_right, NodeWithAction::And });
return make_ref_counted<CommandSequenceValue>(move(commands));
}
ErrorOr<void> And::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
metadata.is_first_in_list = true;
TRY(m_left->highlight_in_editor(editor, shell, metadata));
TRY(m_right->highlight_in_editor(editor, shell, metadata));
return {};
}
HitTestResult And::hit_test_position(size_t offset) const
{
auto result = m_left->hit_test_position(offset);
if (result.matching_node) {
if (!result.closest_command_node)
result.closest_command_node = m_right;
return result;
}
result = m_right->hit_test_position(offset);
if (!result.closest_command_node)
result.closest_command_node = m_right;
return result;
}
And::And(Position position, NonnullRefPtr<Node> left, NonnullRefPtr<Node> right, Position and_position)
: Node(move(position))
, m_left(move(left))
, m_right(move(right))
, m_and_position(and_position)
{
if (m_left->is_syntax_error())
set_is_syntax_error(m_left->syntax_error_node());
else if (m_right->is_syntax_error())
set_is_syntax_error(m_right->syntax_error_node());
}
ErrorOr<void> ListConcatenate::dump(int level) const
{
TRY(Node::dump(level));
for (auto& element : m_list)
TRY(element->dump(level + 1));
return {};
}
ErrorOr<RefPtr<Value>> ListConcatenate::run(RefPtr<Shell> shell)
{
RefPtr<Value> result = nullptr;
for (auto& element : m_list) {
if (shell && shell->has_any_error())
break;
if (!result) {
result = make_ref_counted<ListValue>({ TRY(TRY(element->run(shell))->resolve_without_cast(shell)) });
continue;
}
auto element_value = TRY(TRY(element->run(shell))->resolve_without_cast(shell));
if (shell && shell->has_any_error())
break;
if (result->is_command() || element_value->is_command()) {
auto joined_commands = join_commands(
TRY(result->resolve_as_commands(shell)),
TRY(element_value->resolve_as_commands(shell)));
if (joined_commands.size() == 1) {
auto& command = joined_commands[0];
command.position = position();
result = make_ref_counted<CommandValue>(command);
} else {
result = make_ref_counted<CommandSequenceValue>(move(joined_commands));
}
} else {
Vector<NonnullRefPtr<Value>> values;
if (result->is_list_without_resolution()) {
values.extend(static_cast<ListValue*>(result.ptr())->values());
} else {
for (auto& result : TRY(result->resolve_as_list(shell)))
values.append(make_ref_counted<StringValue>(result));
}
values.append(element_value);
result = make_ref_counted<ListValue>(move(values));
}
}
if (!result)
return make_ref_counted<ListValue>({});
return result;
}
ErrorOr<void> ListConcatenate::for_each_entry(RefPtr<Shell> shell, Function<ErrorOr<IterationDecision>(NonnullRefPtr<Value>)> callback)
{
for (auto& entry : m_list) {
auto value = TRY(entry->run(shell));
if (shell && shell->has_any_error())
break;
if (!value)
continue;
if (TRY(callback(value.release_nonnull())) == IterationDecision::Break)
break;
}
return {};
}
ErrorOr<void> ListConcatenate::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
auto first = metadata.is_first_in_list;
metadata.is_first_in_list = false;
metadata.is_first_in_list = first;
for (auto& element : m_list) {
TRY(element->highlight_in_editor(editor, shell, metadata));
metadata.is_first_in_list = false;
}
return {};
}
HitTestResult ListConcatenate::hit_test_position(size_t offset) const
{
bool first = true;
for (auto& element : m_list) {
auto result = element->hit_test_position(offset);
if (!result.closest_node_with_semantic_meaning && !first)
result.closest_node_with_semantic_meaning = this;
if (result.matching_node)
return result;
first = false;
}
return {};
}
RefPtr<Node const> ListConcatenate::leftmost_trivial_literal() const
{
if (m_list.is_empty())
return nullptr;
return m_list.first()->leftmost_trivial_literal();
}
ListConcatenate::ListConcatenate(Position position, Vector<NonnullRefPtr<Node>> list)
: Node(move(position))
, m_list(move(list))
{
for (auto& element : m_list) {
if (element->is_syntax_error()) {
set_is_syntax_error(element->syntax_error_node());
break;
}
}
}
ErrorOr<void> Background::dump(int level) const
{
TRY(Node::dump(level));
TRY(m_command->dump(level + 1));
return {};
}
ErrorOr<RefPtr<Value>> Background::run(RefPtr<Shell> shell)
{
auto commands = TRY(m_command->to_lazy_evaluated_commands(shell));
for (auto& command : commands)
command.should_wait = false;
return make_ref_counted<CommandSequenceValue>(move(commands));
}
ErrorOr<void> Background::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
return m_command->highlight_in_editor(editor, shell, metadata);
}
HitTestResult Background::hit_test_position(size_t offset) const
{
return m_command->hit_test_position(offset);
}
Background::Background(Position position, NonnullRefPtr<Node> command)
: Node(move(position))
, m_command(move(command))
{
if (m_command->is_syntax_error())
set_is_syntax_error(m_command->syntax_error_node());
}
ErrorOr<void> BarewordLiteral::dump(int level) const
{
TRY(Node::dump(level));
print_indented(level + 1, "{}", m_text);
return {};
}
ErrorOr<RefPtr<Value>> BarewordLiteral::run(RefPtr<Shell>)
{
return make_ref_counted<StringValue>(m_text);
}
ErrorOr<void> BarewordLiteral::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
if (metadata.is_first_in_list) {
auto runnable = shell.runnable_path_for(m_text);
if (runnable.has_value()) {
Line::Style bold = { Line::Style::Bold };
Line::Style style = bold;
#ifdef AK_OS_SERENITY
if (runnable->kind == Shell::RunnablePath::Kind::Executable || runnable->kind == Shell::RunnablePath::Kind::Alias) {
auto name = shell.help_path_for({}, *runnable);
if (name.has_value()) {
auto url = URL::create_with_help_scheme(name.release_value(), shell.hostname);
style = bold.unified_with(Line::Style::Hyperlink(url.to_byte_string()));
}
}
#endif
editor.stylize({ m_position.start_offset, m_position.end_offset }, style);
} else if (auto suggestions = shell.complete_program_name(m_text, m_text.bytes().size()); !suggestions.is_empty()) {
editor.stylize({ m_position.start_offset, m_position.end_offset }, { Line::Style::Foreground(Line::Style::XtermColor::Yellow) });
} else {
editor.stylize({ m_position.start_offset, m_position.end_offset }, { Line::Style::Foreground(Line::Style::XtermColor::Red) });
}
return {};
}
if (m_text.starts_with('-')) {
if (m_text == "--"sv) {
editor.stylize({ m_position.start_offset, m_position.end_offset }, { Line::Style::Foreground(Line::Style::XtermColor::Green) });
return {};
}
if (m_text == "-"sv)
return {};
if (m_text.starts_with_bytes("--"sv)) {
auto index = m_text.find_byte_offset('=').value_or(m_text.bytes_as_string_view().length() - 1) + 1;
editor.stylize({ m_position.start_offset, m_position.start_offset + index }, { Line::Style::Foreground(Line::Style::XtermColor::Cyan) });
} else {
editor.stylize({ m_position.start_offset, m_position.end_offset }, { Line::Style::Foreground(Line::Style::XtermColor::Cyan) });
}
}
if (FileSystem::exists(m_text)) {
auto realpath = shell.resolve_path(m_text.bytes_as_string_view());
auto url = URL::create_with_file_scheme(realpath);
url.set_host(TRY(String::from_byte_string(shell.hostname)));
editor.stylize({ m_position.start_offset, m_position.end_offset }, { Line::Style::Hyperlink(url.to_byte_string()) });
}
return {};
}
BarewordLiteral::BarewordLiteral(Position position, String text)
: Node(move(position))
, m_text(move(text))
{
}
ErrorOr<void> BraceExpansion::dump(int level) const
{
TRY(Node::dump(level));
for (auto& entry : m_entries)
TRY(entry->dump(level + 1));
return {};
}
ErrorOr<RefPtr<Value>> BraceExpansion::run(RefPtr<Shell> shell)
{
Vector<NonnullRefPtr<Value>> values;
for (auto& entry : m_entries) {
if (shell && shell->has_any_error())
break;
auto value = TRY(entry->run(shell));
if (value)
values.append(value.release_nonnull());
}
return make_ref_counted<ListValue>(move(values));
}
HitTestResult BraceExpansion::hit_test_position(size_t offset) const
{
for (auto& entry : m_entries) {
auto result = entry->hit_test_position(offset);
if (result.matching_node) {
if (!result.closest_command_node)
result.closest_command_node = entry;
return result;
}
}
return {};
}
ErrorOr<void> BraceExpansion::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
for (auto& entry : m_entries) {
TRY(entry->highlight_in_editor(editor, shell, metadata));
metadata.is_first_in_list = false;
}
return {};
}
BraceExpansion::BraceExpansion(Position position, Vector<NonnullRefPtr<Node>> entries)
: Node(move(position))
, m_entries(move(entries))
{
for (auto& entry : m_entries) {
if (entry->is_syntax_error()) {
set_is_syntax_error(entry->syntax_error_node());
break;
}
}
}
ErrorOr<void> CastToCommand::dump(int level) const
{
TRY(Node::dump(level));
TRY(m_inner->dump(level + 1));
return {};
}
ErrorOr<RefPtr<Value>> CastToCommand::run(RefPtr<Shell> shell)
{
if (m_inner->is_command())
return m_inner->run(shell);
auto value = TRY(TRY(m_inner->run(shell))->resolve_without_cast(shell));
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
if (value->is_command())
return value;
auto argv = TRY(value->resolve_as_list(shell));
return make_ref_counted<CommandValue>(move(argv), position());
}
ErrorOr<void> CastToCommand::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
return m_inner->highlight_in_editor(editor, shell, metadata);
}
HitTestResult CastToCommand::hit_test_position(size_t offset) const
{
auto result = m_inner->hit_test_position(offset);
if (!result.closest_node_with_semantic_meaning)
result.closest_node_with_semantic_meaning = this;
if (!result.closest_command_node && position().contains(offset))
result.closest_command_node = this;
return result;
}
ErrorOr<Vector<Line::CompletionSuggestion>> CastToCommand::complete_for_editor(Shell& shell, size_t offset, HitTestResult const& hit_test_result) const
{
auto matching_node = hit_test_result.matching_node;
if (!matching_node || !matching_node->is_bareword())
return Vector<Line::CompletionSuggestion> {};
auto corrected_offset = offset - matching_node->position().start_offset;
auto* node = static_cast<BarewordLiteral const*>(matching_node.ptr());
if (corrected_offset > node->text().bytes_as_string_view().length())
return Vector<Line::CompletionSuggestion> {};
return shell.complete_program_name(node->text(), corrected_offset);
}
RefPtr<Node const> CastToCommand::leftmost_trivial_literal() const
{
return m_inner->leftmost_trivial_literal();
}
CastToCommand::CastToCommand(Position position, NonnullRefPtr<Node> inner)
: Node(move(position))
, m_inner(move(inner))
{
if (m_inner->is_syntax_error())
set_is_syntax_error(m_inner->syntax_error_node());
}
ErrorOr<void> CastToList::dump(int level) const
{
TRY(Node::dump(level));
if (m_inner)
TRY(m_inner->dump(level + 1));
else
print_indented(level + 1, "(empty)");
return {};
}
ErrorOr<RefPtr<Value>> CastToList::run(RefPtr<Shell> shell)
{
if (!m_inner)
return make_ref_counted<ListValue>({});
auto inner_value = TRY(TRY(m_inner->run(shell))->resolve_without_cast(shell));
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
if (inner_value->is_command() || inner_value->is_list())
return inner_value;
auto values = TRY(inner_value->resolve_as_list(shell));
Vector<NonnullRefPtr<Value>> cast_values;
for (auto& value : values)
cast_values.append(make_ref_counted<StringValue>(value));
return make_ref_counted<ListValue>(cast_values);
}
ErrorOr<void> CastToList::for_each_entry(RefPtr<Shell> shell, Function<ErrorOr<IterationDecision>(NonnullRefPtr<Value>)> callback)
{
if (m_inner)
TRY(m_inner->for_each_entry(shell, move(callback)));
return {};
}
ErrorOr<void> CastToList::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
if (m_inner)
TRY(m_inner->highlight_in_editor(editor, shell, metadata));
return {};
}
HitTestResult CastToList::hit_test_position(size_t offset) const
{
if (!m_inner)
return {};
return m_inner->hit_test_position(offset);
}
RefPtr<Node const> CastToList::leftmost_trivial_literal() const
{
return m_inner->leftmost_trivial_literal();
}
CastToList::CastToList(Position position, RefPtr<Node> inner)
: Node(move(position))
, m_inner(move(inner))
{
if (m_inner && m_inner->is_syntax_error())
set_is_syntax_error(m_inner->syntax_error_node());
}
ErrorOr<void> CloseFdRedirection::dump(int level) const
{
TRY(Node::dump(level));
print_indented(level, "{} -> Close", m_fd);
return {};
}
ErrorOr<RefPtr<Value>> CloseFdRedirection::run(RefPtr<Shell>)
{
Command command;
command.position = position();
command.redirections.append(adopt_ref(*new CloseRedirection(m_fd)));
return make_ref_counted<CommandValue>(move(command));
}
ErrorOr<void> CloseFdRedirection::highlight_in_editor(Line::Editor& editor, Shell&, HighlightMetadata)
{
editor.stylize({ m_position.start_offset, m_position.end_offset - 1 }, { Line::Style::Foreground(0x87, 0x9b, 0xcd) }); // 25% Darkened Periwinkle
editor.stylize({ m_position.end_offset - 1, m_position.end_offset }, { Line::Style::Foreground(0xff, 0x7e, 0x00) }); // Amber
return {};
}
CloseFdRedirection::CloseFdRedirection(Position position, int fd)
: Node(move(position))
, m_fd(fd)
{
}
CloseFdRedirection::~CloseFdRedirection()
{
}
ErrorOr<void> CommandLiteral::dump(int level) const
{
TRY(Node::dump(level));
print_indented(level + 1, "(Generated command literal: {})", m_command);
return {};
}
ErrorOr<RefPtr<Value>> CommandLiteral::run(RefPtr<Shell>)
{
return make_ref_counted<CommandValue>(m_command);
}
CommandLiteral::CommandLiteral(Position position, Command command)
: Node(move(position))
, m_command(move(command))
{
}
CommandLiteral::~CommandLiteral()
{
}
ErrorOr<void> Comment::dump(int level) const
{
TRY(Node::dump(level));
print_indented(level + 1, "{}", m_text);
return {};
}
ErrorOr<RefPtr<Value>> Comment::run(RefPtr<Shell>)
{
return make_ref_counted<ListValue>({});
}
ErrorOr<void> Comment::highlight_in_editor(Line::Editor& editor, Shell&, HighlightMetadata)
{
editor.stylize({ m_position.start_offset, m_position.end_offset }, { Line::Style::Foreground(150, 150, 150) }); // Light gray
return {};
}
Comment::Comment(Position position, String text)
: Node(move(position))
, m_text(move(text))
{
}
Comment::~Comment()
{
}
ErrorOr<void> ContinuationControl::dump(int level) const
{
TRY(Node::dump(level));
print_indented(level + 1, "{}", m_kind == Continue ? "(Continue)"sv : "(Break)"sv);
return {};
}
ErrorOr<RefPtr<Value>> ContinuationControl::run(RefPtr<Shell> shell)
{
if (m_kind == Break)
shell->raise_error(Shell::ShellError::InternalControlFlowBreak, {}, position());
else if (m_kind == Continue)
shell->raise_error(Shell::ShellError::InternalControlFlowContinue, {}, position());
else
VERIFY_NOT_REACHED();
return make_ref_counted<ListValue>({});
}
ErrorOr<void> ContinuationControl::highlight_in_editor(Line::Editor& editor, Shell&, HighlightMetadata)
{
editor.stylize({ m_position.start_offset, m_position.end_offset }, { Line::Style::Foreground(Line::Style::XtermColor::Yellow) });
return {};
}
ErrorOr<void> DoubleQuotedString::dump(int level) const
{
TRY(Node::dump(level));
TRY(m_inner->dump(level + 1));
return {};
}
ErrorOr<RefPtr<Value>> DoubleQuotedString::run(RefPtr<Shell> shell)
{
StringBuilder builder;
auto values = TRY(TRY(m_inner->run(shell))->resolve_as_list(shell));
builder.join(""sv, values);
return make_ref_counted<StringValue>(TRY(builder.to_string()));
}
ErrorOr<void> DoubleQuotedString::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
Line::Style style { Line::Style::Foreground(Line::Style::XtermColor::Yellow) };
if (metadata.is_first_in_list)
style.unify_with({ Line::Style::Bold });
editor.stylize({ m_position.start_offset, m_position.end_offset }, style);
metadata.is_first_in_list = false;
return m_inner->highlight_in_editor(editor, shell, metadata);
}
HitTestResult DoubleQuotedString::hit_test_position(size_t offset) const
{
return m_inner->hit_test_position(offset);
}
DoubleQuotedString::DoubleQuotedString(Position position, RefPtr<Node> inner)
: Node(move(position))
, m_inner(move(inner))
{
if (m_inner->is_syntax_error())
set_is_syntax_error(m_inner->syntax_error_node());
}
DoubleQuotedString::~DoubleQuotedString()
{
}
ErrorOr<void> DynamicEvaluate::dump(int level) const
{
TRY(Node::dump(level));
TRY(m_inner->dump(level + 1));
return {};
}
ErrorOr<RefPtr<Value>> DynamicEvaluate::run(RefPtr<Shell> shell)
{
auto result = TRY(TRY(m_inner->run(shell))->resolve_without_cast(shell));
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
// Dynamic Evaluation behaves differently between strings and lists.
// Strings are treated as variables, and Lists are treated as commands.
if (result->is_string()) {
auto name_part = TRY(result->resolve_as_list(shell));
VERIFY(name_part.size() == 1);
return make_ref_counted<SimpleVariableValue>(name_part[0]);
}
// If it's anything else, we're just gonna cast it to a list.
auto list = TRY(result->resolve_as_list(shell));
return make_ref_counted<CommandValue>(move(list), position());
}
ErrorOr<void> DynamicEvaluate::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
editor.stylize({ m_position.start_offset, m_position.end_offset }, { Line::Style::Foreground(Line::Style::XtermColor::Yellow) });
return m_inner->highlight_in_editor(editor, shell, metadata);
}
HitTestResult DynamicEvaluate::hit_test_position(size_t offset) const
{
return m_inner->hit_test_position(offset);
}
DynamicEvaluate::DynamicEvaluate(Position position, NonnullRefPtr<Node> inner)
: Node(move(position))
, m_inner(move(inner))
{
if (m_inner->is_syntax_error())
set_is_syntax_error(m_inner->syntax_error_node());
}
DynamicEvaluate::~DynamicEvaluate()
{
}
ErrorOr<void> Fd2FdRedirection::dump(int level) const
{
TRY(Node::dump(level));
print_indented(level, "{} -> {}", m_old_fd, m_new_fd);
return {};
}
ErrorOr<RefPtr<Value>> Fd2FdRedirection::run(RefPtr<Shell>)
{
Command command;
command.position = position();
command.redirections.append(FdRedirection::create(m_new_fd, m_old_fd, Rewiring::Close::None));
return make_ref_counted<CommandValue>(move(command));
}
ErrorOr<void> Fd2FdRedirection::highlight_in_editor(Line::Editor& editor, Shell&, HighlightMetadata)
{
editor.stylize({ m_position.start_offset, m_position.end_offset }, { Line::Style::Foreground(0x87, 0x9b, 0xcd) }); // 25% Darkened Periwinkle
return {};
}
Fd2FdRedirection::Fd2FdRedirection(Position position, int src, int dst)
: Node(move(position))
, m_old_fd(src)
, m_new_fd(dst)
{
}
Fd2FdRedirection::~Fd2FdRedirection()
{
}
ErrorOr<void> FunctionDeclaration::dump(int level) const
{
TRY(Node::dump(level));
print_indented(level + 1, "(name: {})\n", m_name.name);
print_indented(level + 1, "(argument names)");
for (auto& arg : m_arguments)
print_indented(level + 2, "(name: {})\n", arg.name);
print_indented(level + 1, "(body)");
if (m_block)
TRY(m_block->dump(level + 2));
else
print_indented(level + 2, "(null)");
return {};
}
ErrorOr<RefPtr<Value>> FunctionDeclaration::run(RefPtr<Shell> shell)
{
Vector<ByteString> args;
for (auto& arg : m_arguments)
args.append(arg.name.to_byte_string());
shell->define_function(m_name.name.to_byte_string(), move(args), m_block);
return make_ref_counted<ListValue>({});
}
ErrorOr<void> FunctionDeclaration::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
editor.stylize({ m_name.position.start_offset, m_name.position.end_offset }, { Line::Style::Foreground(Line::Style::XtermColor::Blue) });
for (auto& arg : m_arguments)
editor.stylize({ arg.position.start_offset, arg.position.end_offset }, { Line::Style::Foreground(Line::Style::XtermColor::Blue), Line::Style::Italic });
metadata.is_first_in_list = true;
if (m_block)
TRY(m_block->highlight_in_editor(editor, shell, metadata));
return {};
}
HitTestResult FunctionDeclaration::hit_test_position(size_t offset) const
{
if (!m_block)
return {};
auto result = m_block->hit_test_position(offset);
if (result.matching_node && result.matching_node->is_simple_variable())
result.closest_node_with_semantic_meaning = this;
return result;
}
ErrorOr<Vector<Line::CompletionSuggestion>> FunctionDeclaration::complete_for_editor(Shell& shell, size_t offset, HitTestResult const& hit_test_result) const
{
auto matching_node = hit_test_result.matching_node;
if (!matching_node)
return Vector<Line::CompletionSuggestion> {};
if (!matching_node->is_simple_variable())
return matching_node->complete_for_editor(shell, offset, hit_test_result);
auto corrected_offset = offset - matching_node->position().start_offset - 1; // Skip the first '$'
auto* node = static_cast<SimpleVariable const*>(matching_node.ptr());
auto name = node->name().bytes_as_string_view().substring_view(0, corrected_offset);
Vector<Line::CompletionSuggestion> results;
for (auto& arg : m_arguments) {
if (arg.name.starts_with_bytes(name))
results.append(arg.name.to_byte_string());
}
results.extend(TRY(matching_node->complete_for_editor(shell, offset, hit_test_result)));
return results;
}
FunctionDeclaration::FunctionDeclaration(Position position, NameWithPosition name, Vector<NameWithPosition> arguments, RefPtr<AST::Node> body)
: Node(move(position))
, m_name(move(name))
, m_arguments(arguments)
, m_block(move(body))
{
if (m_block && m_block->is_syntax_error())
set_is_syntax_error(m_block->syntax_error_node());
}
FunctionDeclaration::~FunctionDeclaration()
{
}
ErrorOr<void> ForLoop::dump(int level) const
{
TRY(Node::dump(level));
if (m_variable.has_value())
print_indented(level + 1, "iterating with {} in", m_variable->name);
if (m_index_variable.has_value())
print_indented(level + 1, "with index name {} in", m_index_variable->name);
if (m_iterated_expression)
TRY(m_iterated_expression->dump(level + 2));
else
print_indented(level + 2, "(ever)");
print_indented(level + 1, "Running");
if (m_block)
TRY(m_block->dump(level + 2));
else
print_indented(level + 2, "(null)");
return {};
}
ErrorOr<RefPtr<Value>> ForLoop::run(RefPtr<Shell> shell)
{
if (!m_block)
return make_ref_counted<ListValue>({});
size_t consecutive_interruptions = 0;
auto run = [&](auto& block_value) {
if (shell->has_error(Shell::ShellError::InternalControlFlowBreak) || shell->has_error(Shell::ShellError::InternalControlFlowReturn)) {
shell->take_error();
return IterationDecision::Break;
}
if (shell->has_error(Shell::ShellError::InternalControlFlowContinue)) {
shell->take_error();
return IterationDecision::Continue;
}
if (shell->has_any_error() && !shell->has_error(Shell::ShellError::InternalControlFlowInterrupted))
return IterationDecision::Break;
if (block_value->is_job()) {
auto job = static_cast<JobValue*>(block_value.ptr())->job();
if (!job || job->is_running_in_background())
return IterationDecision::Continue;
shell->block_on_job(job);
if (shell->has_any_error()) {
if (shell->has_error(Shell::ShellError::InternalControlFlowInterrupted))
++consecutive_interruptions;
if (shell->has_error(Shell::ShellError::InternalControlFlowKilled))
return IterationDecision::Break;
}
}
return IterationDecision::Continue;
};
if (m_iterated_expression) {
auto variable_name = m_variable.has_value() ? m_variable->name : "it"_string;
Optional<StringView> index_name = m_index_variable.has_value() ? Optional<StringView>(m_index_variable->name) : Optional<StringView>();
size_t i = 0;
TRY(m_iterated_expression->for_each_entry(shell, [&](auto value) -> ErrorOr<IterationDecision> {
if (consecutive_interruptions >= 2)
return IterationDecision::Break;
if (shell) {
if (shell->has_error(Shell::ShellError::InternalControlFlowInterrupted))
shell->take_error();
if (shell->has_any_error())
return IterationDecision::Break;
}
RefPtr<Value> block_value;
{
auto frame = shell->push_frame(ByteString::formatted("for ({})", this));
shell->set_local_variable(variable_name.bytes_as_string_view(), value, true);
if (index_name.has_value())
shell->set_local_variable(index_name.value(), make_ref_counted<AST::StringValue>(TRY(String::number(i))), true);
++i;
block_value = TRY(m_block->run(shell));
}
return run(block_value);
}));
} else {
for (;;) {
if (consecutive_interruptions >= 2)
break;
if (shell) {
if (shell->has_error(Shell::ShellError::InternalControlFlowInterrupted))
shell->take_error();
if (shell->has_any_error())
break;
}
RefPtr<Value> block_value = TRY(m_block->run(shell));
if (run(block_value) == IterationDecision::Break)
break;
}
}
return make_ref_counted<ListValue>({});
}
ErrorOr<void> ForLoop::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
auto is_loop = m_iterated_expression.is_null();
editor.stylize({ m_position.start_offset, m_position.start_offset + (is_loop ? 4 : 3) }, { Line::Style::Foreground(Line::Style::XtermColor::Yellow) });
if (!is_loop) {
if (m_in_kw_position.has_value())
editor.stylize({ m_in_kw_position.value().start_offset, m_in_kw_position.value().end_offset }, { Line::Style::Foreground(Line::Style::XtermColor::Yellow) });
if (m_index_kw_position.has_value())
editor.stylize({ m_index_kw_position.value().start_offset, m_index_kw_position.value().end_offset }, { Line::Style::Foreground(Line::Style::XtermColor::Yellow) });
metadata.is_first_in_list = false;
TRY(m_iterated_expression->highlight_in_editor(editor, shell, metadata));
}
if (m_index_variable.has_value())
editor.stylize({ m_index_variable->position.start_offset, m_index_variable->position.end_offset }, { Line::Style::Foreground(Line::Style::XtermColor::Blue), Line::Style::Italic });
if (m_variable.has_value())
editor.stylize({ m_variable->position.start_offset, m_variable->position.end_offset }, { Line::Style::Foreground(Line::Style::XtermColor::Blue), Line::Style::Italic });
metadata.is_first_in_list = true;
if (m_block)
TRY(m_block->highlight_in_editor(editor, shell, metadata));
return {};
}
HitTestResult ForLoop::hit_test_position(size_t offset) const
{
if (m_iterated_expression) {
if (auto result = m_iterated_expression->hit_test_position(offset); result.matching_node)
return result;
}
if (!m_block)
return {};
return m_block->hit_test_position(offset);
}
ForLoop::ForLoop(Position position, Optional<NameWithPosition> variable, Optional<NameWithPosition> index_variable, RefPtr<AST::Node> iterated_expr, RefPtr<AST::Node> block, Optional<Position> in_kw_position, Optional<Position> index_kw_position)
: Node(move(position))
, m_variable(move(variable))
, m_index_variable(move(index_variable))
, m_iterated_expression(move(iterated_expr))
, m_block(move(block))
, m_in_kw_position(move(in_kw_position))
, m_index_kw_position(move(index_kw_position))
{
if (m_iterated_expression && m_iterated_expression->is_syntax_error())
set_is_syntax_error(m_iterated_expression->syntax_error_node());
else if (m_block && m_block->is_syntax_error())
set_is_syntax_error(m_block->syntax_error_node());
}
ForLoop::~ForLoop()
{
}
ErrorOr<void> Glob::dump(int level) const
{
TRY(Node::dump(level));
print_indented(level + 1, "{}", m_text);
return {};
}
ErrorOr<RefPtr<Value>> Glob::run(RefPtr<Shell>)
{
return make_ref_counted<GlobValue>(m_text, position());
}
ErrorOr<void> Glob::highlight_in_editor(Line::Editor& editor, Shell&, HighlightMetadata metadata)
{
Line::Style style { Line::Style::Foreground(Line::Style::XtermColor::Cyan) };
if (metadata.is_first_in_list)
style.unify_with({ Line::Style::Bold });
editor.stylize({ m_position.start_offset, m_position.end_offset }, move(style));
return {};
}
Glob::Glob(Position position, String text)
: Node(move(position))
, m_text(move(text))
{
}
Glob::~Glob()
{
}
ErrorOr<void> Heredoc::dump(int level) const
{
TRY(Node::dump(level));
print_indented(level + 1, "(End Key)");
print_indented(level + 2, "{}", m_end);
print_indented(level + 1, "(Allows Interpolation)");
print_indented(level + 2, "{}", m_allows_interpolation);
if (!evaluates_to_string()) {
print_indented(level + 1, "(Target FD)");
print_indented(level + 2, "{}", *m_target_fd);
}
print_indented(level + 1, "(Contents)");
if (m_contents)
TRY(m_contents->dump(level + 2));
else
print_indented(level + 2, "(null)");
return {};
}
ErrorOr<RefPtr<Value>> Heredoc::run(RefPtr<Shell> shell)
{
if (shell && shell->posix_mode() && !m_contents) {
m_contents = make_ref_counted<StringLiteral>(position(), ""_string, StringLiteral::EnclosureType::None);
}
if (!m_contents) {
if (shell)
shell->raise_error(Shell::ShellError::EvaluatedSyntaxError, "Attempt to evaluate an unresolved heredoc"sv, position());
return nullptr;
}
auto value = TRY([&]() -> ErrorOr<RefPtr<Value>> {
if (!m_deindent)
return TRY(m_contents->run(shell));
// To deindent, first split to lines...
auto value = TRY(m_contents->run(shell));
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
if (!value)
return value;
auto list = TRY(value->resolve_as_list(shell));
// The list better have one entry, otherwise we've put the wrong kind of node inside this heredoc
VERIFY(list.size() == 1);
auto lines = list.first().bytes_as_string_view().split_view('\n');
// Now just trim each line and put them back in a string
StringBuilder builder { list.first().bytes_as_string_view().length() };
for (auto& line : lines) {
builder.append(line.trim_whitespace(TrimMode::Left));
builder.append('\n');
}
return make_ref_counted<StringValue>(TRY(builder.to_string()));
}());
if (evaluates_to_string())
return value;
int fds[2];
auto rc = pipe(fds);
if (rc != 0) {
// pipe() failed for {}
if (shell)
shell->raise_error(Shell::ShellError::PipeFailure, ByteString::formatted("heredoc: {}", strerror(errno)), position());
return nullptr;
}
auto read_end = fds[0];
auto write_end = fds[1];
// Dump all of 'value' into the pipe.
auto* file = fdopen(write_end, "wb");
if (!file) {
if (shell)
shell->raise_error(Shell::ShellError::OpenFailure, "heredoc"sv, position());
return nullptr;
}
auto text = TRY(value->resolve_as_string(shell));
auto bytes = text.bytes();
auto written = fwrite(bytes.data(), 1, bytes.size(), file);
fflush(file);
if (written != bytes.size()) {
if (shell)
shell->raise_error(Shell::ShellError::WriteFailure, "heredoc"sv, position());
}
fclose(file);
Command command;
command.position = position();
command.redirections.append(FdRedirection::create(read_end, *target_fd(), Rewiring::Close::None));
return make_ref_counted<CommandValue>(move(command));
}
ErrorOr<void> Heredoc::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
Line::Style content_style { Line::Style::Foreground(Line::Style::XtermColor::Yellow) };
if (metadata.is_first_in_list)
content_style.unify_with({ Line::Style::Bold });
if (!m_contents)
content_style.unify_with({ Line::Style::Foreground(Line::Style::XtermColor::Red) }, true);
editor.stylize({ m_position.start_offset, m_position.end_offset }, content_style);
if (m_contents)
TRY(m_contents->highlight_in_editor(editor, shell, metadata));
return {};
}
HitTestResult Heredoc::hit_test_position(size_t offset) const
{
if (!m_contents)
return {};
return m_contents->hit_test_position(offset);
}
Heredoc::Heredoc(Position position, String end, bool allow_interpolation, bool deindent, Optional<int> target_fd)
: Node(move(position))
, m_end(move(end))
, m_allows_interpolation(allow_interpolation)
, m_deindent(deindent)
, m_target_fd(target_fd)
{
}
Heredoc::~Heredoc()
{
}
ErrorOr<void> HistoryEvent::dump(int level) const
{
TRY(Node::dump(level));
print_indented(level + 1, "Event Selector");
switch (m_selector.event.kind) {
case HistorySelector::EventKind::IndexFromStart:
print_indented(level + 2, "IndexFromStart");
break;
case HistorySelector::EventKind::IndexFromEnd:
print_indented(level + 2, "IndexFromEnd");
break;
case HistorySelector::EventKind::ContainingStringLookup:
print_indented(level + 2, "ContainingStringLookup");
break;
case HistorySelector::EventKind::StartingStringLookup:
print_indented(level + 2, "StartingStringLookup");
break;
}
print_indented(level + 3, "{}({})", m_selector.event.index, m_selector.event.text);
print_indented(level + 1, "Word Selector");
auto print_word_selector = [&](HistorySelector::WordSelector const& selector) {
switch (selector.kind) {
case HistorySelector::WordSelectorKind::Index:
print_indented(level + 3, "Index {}", selector.selector);
break;
case HistorySelector::WordSelectorKind::Last:
print_indented(level + 3, "Last");
break;
}
};
if (m_selector.word_selector_range.end.has_value()) {
print_indented(level + 2, "Range Start");
print_word_selector(m_selector.word_selector_range.start);
print_indented(level + 2, "Range End");
print_word_selector(m_selector.word_selector_range.end.value());
} else {
print_indented(level + 2, "Direct Address");
print_word_selector(m_selector.word_selector_range.start);
}
return {};
}
ErrorOr<RefPtr<Value>> HistoryEvent::run(RefPtr<Shell> shell)
{
if (!shell)
return make_ref_counted<AST::ListValue>({});
auto editor = shell->editor();
if (!editor) {
shell->raise_error(Shell::ShellError::EvaluatedSyntaxError, "No history available!", position());
return make_ref_counted<AST::ListValue>({});
}
auto& history = editor->history();
// First, resolve the event itself.
ByteString resolved_history;
switch (m_selector.event.kind) {
case HistorySelector::EventKind::IndexFromStart:
if (m_selector.event.index >= history.size()) {
shell->raise_error(Shell::ShellError::EvaluatedSyntaxError, "History event index out of bounds", m_selector.event.text_position);
return make_ref_counted<AST::ListValue>({});
}
resolved_history = history[m_selector.event.index].entry;
break;
case HistorySelector::EventKind::IndexFromEnd:
if (m_selector.event.index >= history.size()) {
shell->raise_error(Shell::ShellError::EvaluatedSyntaxError, "History event index out of bounds", m_selector.event.text_position);
return make_ref_counted<AST::ListValue>({});
}
resolved_history = history[history.size() - m_selector.event.index - 1].entry;
break;
case HistorySelector::EventKind::ContainingStringLookup: {
auto it = find_if(history.rbegin(), history.rend(), [&](auto& entry) { return entry.entry.contains(m_selector.event.text); });
if (it.is_end()) {
shell->raise_error(Shell::ShellError::EvaluatedSyntaxError, "History event did not match any entry", m_selector.event.text_position);
return make_ref_counted<AST::ListValue>({});
}
resolved_history = it->entry;
break;
}
case HistorySelector::EventKind::StartingStringLookup: {
auto it = find_if(history.rbegin(), history.rend(), [&](auto& entry) { return entry.entry.starts_with(m_selector.event.text); });
if (it.is_end()) {
shell->raise_error(Shell::ShellError::EvaluatedSyntaxError, "History event did not match any entry", m_selector.event.text_position);
return make_ref_counted<AST::ListValue>({});
}
resolved_history = it->entry;
break;
}
}
// Then, split it up to "words".
auto nodes = Parser { resolved_history }.parse_as_multiple_expressions();
// Now take the "words" as described by the word selectors.
bool is_range = m_selector.word_selector_range.end.has_value();
if (is_range) {
auto start_index = m_selector.word_selector_range.start.resolve(nodes.size());
auto end_index = m_selector.word_selector_range.end->resolve(nodes.size());
if (start_index >= nodes.size()) {
shell->raise_error(Shell::ShellError::EvaluatedSyntaxError, "History word index out of bounds", m_selector.word_selector_range.start.position);
return make_ref_counted<AST::ListValue>({});
}
if (end_index >= nodes.size()) {
shell->raise_error(Shell::ShellError::EvaluatedSyntaxError, "History word index out of bounds", m_selector.word_selector_range.end->position);
return make_ref_counted<AST::ListValue>({});
}
decltype(nodes) resolved_nodes;
resolved_nodes.append(nodes.data() + start_index, end_index - start_index + 1);
NonnullRefPtr<AST::Node> list = make_ref_counted<AST::ListConcatenate>(position(), move(resolved_nodes));
return list->run(shell);
}
auto index = m_selector.word_selector_range.start.resolve(nodes.size());
if (index >= nodes.size()) {
shell->raise_error(Shell::ShellError::EvaluatedSyntaxError, "History word index out of bounds", m_selector.word_selector_range.start.position);
return make_ref_counted<AST::ListValue>({});
}
return nodes[index]->run(shell);
}
ErrorOr<void> HistoryEvent::highlight_in_editor(Line::Editor& editor, Shell&, HighlightMetadata metadata)
{
Line::Style style { Line::Style::Foreground(Line::Style::XtermColor::Green) };
if (metadata.is_first_in_list)
style.unify_with({ Line::Style::Bold });
editor.stylize({ m_position.start_offset, m_position.end_offset }, move(style));
return {};
}
HistoryEvent::HistoryEvent(Position position, HistorySelector selector)
: Node(move(position))
, m_selector(move(selector))
{
if (m_selector.word_selector_range.start.syntax_error_node)
set_is_syntax_error(*m_selector.word_selector_range.start.syntax_error_node);
else if (m_selector.word_selector_range.end.has_value() && m_selector.word_selector_range.end->syntax_error_node)
set_is_syntax_error(*m_selector.word_selector_range.end->syntax_error_node);
}
HistoryEvent::~HistoryEvent()
{
}
ErrorOr<void> Execute::dump(int level) const
{
TRY(Node::dump(level));
if (m_capture_stdout)
print_indented(level + 1, "(Capturing stdout)");
TRY(m_command->dump(level + 1));
return {};
}
ErrorOr<void> Execute::for_each_entry(RefPtr<Shell> shell, Function<ErrorOr<IterationDecision>(NonnullRefPtr<Value>)> callback)
{
if (m_command->would_execute())
return m_command->for_each_entry(shell, move(callback));
auto unexpanded_commands = TRY(TRY(m_command->run(shell))->resolve_as_commands(shell));
if (shell && shell->has_any_error())
return {};
if (!shell)
return {};
auto commands = TRY(shell->expand_aliases(move(unexpanded_commands)));
if (m_capture_stdout) {
// Make sure that we're going to be running _something_.
auto has_one_command = false;
for (auto& command : commands) {
if (command.argv.is_empty() && !command.pipeline && command.next_chain.is_empty())
continue;
has_one_command = true;
break;
}
if (!has_one_command) {
shell->raise_error(Shell::ShellError::EvaluatedSyntaxError, "Cannot capture standard output when no command is being executed", m_position);
return {};
}
int pipefd[2];
int rc = pipe(pipefd);
if (rc < 0) {
dbgln("Error: cannot pipe(): {}", strerror(errno));
return {};
}
auto& last_in_commands = commands.last();
last_in_commands.redirections.prepend(FdRedirection::create(pipefd[1], STDOUT_FILENO, Rewiring::Close::Old));
last_in_commands.should_wait = false;
last_in_commands.should_notify_if_in_background = false;
last_in_commands.is_pipe_source = false;
Core::EventLoop loop;
auto notifier = Core::Notifier::construct(pipefd[0], Core::Notifier::Type::Read);
AllocatingMemoryStream stream;
enum CheckResult {
Continue,
Break,
NothingLeft,
};
auto check_and_call = [&]() -> ErrorOr<CheckResult> {
auto ifs = TRY(shell->local_variable_or("IFS"sv, "\n"sv));
if (auto offset = TRY(stream.offset_of(ifs.bytes())); offset.has_value()) {
auto line_end = offset.value();
if (line_end == 0) {
TRY(stream.discard(ifs.length()));
if (shell->options.inline_exec_keep_empty_segments)
if (TRY(callback(make_ref_counted<StringValue>(String {}))) == IterationDecision::Break) {
loop.quit(Break);
notifier->set_enabled(false);
return Break;
}
} else {
auto entry_result = ByteBuffer::create_uninitialized(line_end + ifs.length());
if (entry_result.is_error()) {
loop.quit(Break);
notifier->set_enabled(false);
return Break;
}
auto entry = entry_result.release_value();
TRY(stream.read_until_filled(entry));
auto str = TRY(String::from_utf8(StringView(entry.data(), entry.size() - ifs.length())));
if (TRY(callback(make_ref_counted<StringValue>(move(str)))) == IterationDecision::Break) {
loop.quit(Break);
notifier->set_enabled(false);
return Break;
}
}
return Continue;
}
return NothingLeft;
};
notifier->on_activation = [&]() -> void {
constexpr static auto buffer_size = 16;
u8 buffer[buffer_size];
size_t remaining_size = buffer_size;
for (;;) {
notifier->set_type(Core::Notifier::Type::None);
bool should_enable_notifier = false;
ScopeGuard notifier_enabler { [&] {
if (should_enable_notifier)
notifier->set_type(Core::Notifier::Type::Read);
} };
if (check_and_call().release_value_but_fixme_should_propagate_errors() == Break) {
loop.quit(Break);
return;
}
auto read_size = read(pipefd[0], buffer, remaining_size);
if (read_size < 0) {
int saved_errno = errno;
if (saved_errno == EINTR) {
should_enable_notifier = true;
continue;
}
if (saved_errno == 0)
continue;
dbgln("read() failed: {}", strerror(saved_errno));
break;
}
if (read_size == 0)
break;
should_enable_notifier = true;
stream.write_until_depleted({ buffer, (size_t)read_size }).release_value_but_fixme_should_propagate_errors();
}
loop.quit(NothingLeft);
};
auto jobs = shell->run_commands(commands);
ScopeGuard kill_jobs_if_around { [&] {
for (auto& job : jobs) {
if (job->is_running_in_background() && !job->exited() && !job->signaled()) {
job->set_should_announce_signal(false); // We're explicitly killing it here.
shell->kill_job(job, SIGTERM);
}
}
} };
auto exit_reason = loop.exec();
notifier->on_activation = nullptr;
if (close(pipefd[0]) < 0) {
dbgln("close() failed: {}", strerror(errno));
}
if (exit_reason != Break && !stream.is_eof()) {
auto action = Continue;
do {
action = TRY(check_and_call());
if (action == Break)
return {};
} while (action == Continue);
if (!stream.is_eof()) {
auto entry_result = ByteBuffer::create_uninitialized(stream.used_buffer_size());
if (entry_result.is_error()) {
shell->raise_error(Shell::ShellError::OutOfMemory, {}, position());
return {};
}
auto entry = entry_result.release_value();
TRY(stream.read_until_filled(entry));
TRY(callback(make_ref_counted<StringValue>(TRY(String::from_utf8(entry)))));
}
}
return {};
}
auto jobs = shell->run_commands(commands);
if (!jobs.is_empty())
TRY(callback(make_ref_counted<JobValue>(jobs.last())));
return {};
}
ErrorOr<RefPtr<Value>> Execute::run(RefPtr<Shell> shell)
{
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
if (m_command->would_execute())
return m_command->run(shell);
Vector<NonnullRefPtr<Value>> values;
TRY(for_each_entry(shell, [&](auto value) {
values.append(*value);
return IterationDecision::Continue;
}));
if (values.size() == 1 && values.first()->is_job())
return values.first();
return make_ref_counted<ListValue>(move(values));
}
ErrorOr<void> Execute::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
if (m_capture_stdout)
editor.stylize({ m_position.start_offset, m_position.end_offset }, { Line::Style::Foreground(Line::Style::XtermColor::Green) });
metadata.is_first_in_list = true;
return m_command->highlight_in_editor(editor, shell, metadata);
}
HitTestResult Execute::hit_test_position(size_t offset) const
{
auto result = m_command->hit_test_position(offset);
if (!result.closest_node_with_semantic_meaning)
result.closest_node_with_semantic_meaning = this;
if (!result.closest_command_node)
result.closest_command_node = m_command;
return result;
}
ErrorOr<Vector<Line::CompletionSuggestion>> Execute::complete_for_editor(Shell& shell, size_t offset, HitTestResult const& hit_test_result) const
{
auto matching_node = hit_test_result.matching_node;
if (!matching_node || !matching_node->is_bareword())
return Vector<Line::CompletionSuggestion> {};
auto corrected_offset = offset - matching_node->position().start_offset;
auto* node = static_cast<BarewordLiteral const*>(matching_node.ptr());
if (corrected_offset > node->text().bytes_as_string_view().length())
return Vector<Line::CompletionSuggestion> {};
return shell.complete_program_name(node->text(), corrected_offset);
}
Execute::Execute(Position position, NonnullRefPtr<Node> command, bool capture_stdout)
: Node(move(position))
, m_command(move(command))
, m_capture_stdout(capture_stdout)
{
if (m_command->is_syntax_error())
set_is_syntax_error(m_command->syntax_error_node());
}
Execute::~Execute()
{
}
ErrorOr<void> IfCond::dump(int level) const
{
TRY(Node::dump(level));
print_indented(++level, "Condition");
TRY(m_condition->dump(level + 1));
print_indented(level, "True Branch");
if (m_true_branch)
TRY(m_true_branch->dump(level + 1));
else
print_indented(level + 1, "(empty)");
print_indented(level, "False Branch");
if (m_false_branch)
TRY(m_false_branch->dump(level + 1));
else
print_indented(level + 1, "(empty)");
return {};
}
ErrorOr<RefPtr<Value>> IfCond::run(RefPtr<Shell> shell)
{
auto cond = TRY(TRY(m_condition->run(shell))->resolve_without_cast(shell));
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
// The condition could be a builtin, in which case it has already run and exited.
if (cond->is_job()) {
auto cond_job_value = static_cast<JobValue const*>(cond.ptr());
auto cond_job = cond_job_value->job();
shell->block_on_job(cond_job);
}
if (shell->last_return_code == 0) {
if (m_true_branch)
return m_true_branch->run(shell);
} else {
if (m_false_branch)
return m_false_branch->run(shell);
}
return make_ref_counted<ListValue>({});
}
ErrorOr<void> IfCond::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
metadata.is_first_in_list = true;
editor.stylize({ m_position.start_offset, m_position.start_offset + 2 }, { Line::Style::Foreground(Line::Style::XtermColor::Yellow) });
if (m_else_position.has_value())
editor.stylize({ m_else_position.value().start_offset, m_else_position.value().start_offset + 4 }, { Line::Style::Foreground(Line::Style::XtermColor::Yellow) });
TRY(m_condition->highlight_in_editor(editor, shell, metadata));
if (m_true_branch)
TRY(m_true_branch->highlight_in_editor(editor, shell, metadata));
if (m_false_branch)
TRY(m_false_branch->highlight_in_editor(editor, shell, metadata));
return {};
}
HitTestResult IfCond::hit_test_position(size_t offset) const
{
if (auto result = m_condition->hit_test_position(offset); result.matching_node)
return result;
if (m_true_branch) {
if (auto result = m_true_branch->hit_test_position(offset); result.matching_node)
return result;
}
if (m_false_branch) {
if (auto result = m_false_branch->hit_test_position(offset); result.matching_node)
return result;
}
return {};
}
IfCond::IfCond(Position position, Optional<Position> else_position, NonnullRefPtr<Node> condition, RefPtr<Node> true_branch, RefPtr<Node> false_branch)
: Node(move(position))
, m_condition(move(condition))
, m_true_branch(move(true_branch))
, m_false_branch(move(false_branch))
, m_else_position(move(else_position))
{
if (m_condition->is_syntax_error())
set_is_syntax_error(m_condition->syntax_error_node());
else if (m_true_branch && m_true_branch->is_syntax_error())
set_is_syntax_error(m_true_branch->syntax_error_node());
else if (m_false_branch && m_false_branch->is_syntax_error())
set_is_syntax_error(m_false_branch->syntax_error_node());
m_condition = make_ref_counted<AST::Execute>(m_condition->position(), m_condition);
if (m_true_branch) {
auto true_branch = m_true_branch.release_nonnull();
if (true_branch->is_execute())
m_true_branch = static_ptr_cast<AST::Execute>(true_branch)->command();
else
m_true_branch = move(true_branch);
}
if (m_false_branch) {
auto false_branch = m_false_branch.release_nonnull();
if (false_branch->is_execute())
m_false_branch = static_ptr_cast<AST::Execute>(false_branch)->command();
else
m_false_branch = move(false_branch);
}
}
IfCond::~IfCond()
{
}
ErrorOr<void> ImmediateExpression::dump(int level) const
{
TRY(Node::dump(level));
print_indented(level + 1, "(function)"sv);
print_indented(level + 2, "{}", m_function.name);
print_indented(level + 1, "(arguments)");
for (auto& argument : arguments())
TRY(argument->dump(level + 2));
return {};
}
ErrorOr<RefPtr<Value>> ImmediateExpression::run(RefPtr<Shell> shell)
{
auto node = TRY(shell->run_immediate_function(m_function.name, *this, arguments()));
if (node)
return node->run(shell);
return make_ref_counted<ListValue>({});
}
ErrorOr<void> ImmediateExpression::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
// '${' - FIXME: This could also be '$\\\n{'
editor.stylize({ m_position.start_offset, m_position.start_offset + 2 }, { Line::Style::Foreground(Line::Style::XtermColor::Green) });
// Function name
Line::Style function_style { Line::Style::Foreground(Line::Style::XtermColor::Red) };
if (shell.has_immediate_function(function_name()))
function_style = { Line::Style::Foreground(Line::Style::XtermColor::Green) };
editor.stylize({ m_function.position.start_offset, m_function.position.end_offset }, move(function_style));
// Arguments
for (auto& argument : m_arguments) {
metadata.is_first_in_list = false;
TRY(argument->highlight_in_editor(editor, shell, metadata));
}
// Closing brace
if (m_closing_brace_position.has_value())
editor.stylize({ m_closing_brace_position->start_offset, m_closing_brace_position->end_offset }, { Line::Style::Foreground(Line::Style::XtermColor::Green) });
return {};
}
ErrorOr<Vector<Line::CompletionSuggestion>> ImmediateExpression::complete_for_editor(Shell& shell, size_t offset, HitTestResult const& hit_test_result) const
{
auto matching_node = hit_test_result.matching_node;
if (!matching_node || matching_node != this)
return Vector<Line::CompletionSuggestion> {};
auto corrected_offset = offset - m_function.position.start_offset;
if (corrected_offset > m_function.name.bytes_as_string_view().length())
return Vector<Line::CompletionSuggestion> {};
return shell.complete_immediate_function_name(m_function.name, corrected_offset);
}
HitTestResult ImmediateExpression::hit_test_position(size_t offset) const
{
if (m_function.position.contains(offset))
return { this, this, this };
for (auto& argument : m_arguments) {
if (auto result = argument->hit_test_position(offset); result.matching_node)
return result;
}
return {};
}
ImmediateExpression::ImmediateExpression(Position position, NameWithPosition function, Vector<NonnullRefPtr<AST::Node>> arguments, Optional<Position> closing_brace_position)
: Node(move(position))
, m_arguments(move(arguments))
, m_function(move(function))
, m_closing_brace_position(move(closing_brace_position))
{
if (is_syntax_error())
return;
for (auto& argument : m_arguments) {
if (argument->is_syntax_error()) {
set_is_syntax_error(argument->syntax_error_node());
return;
}
}
}
ImmediateExpression::~ImmediateExpression()
{
}
ErrorOr<void> Join::dump(int level) const
{
TRY(Node::dump(level));
TRY(m_left->dump(level + 1));
TRY(m_right->dump(level + 1));
return {};
}
ErrorOr<RefPtr<Value>> Join::run(RefPtr<Shell> shell)
{
auto left = TRY(m_left->to_lazy_evaluated_commands(shell));
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
if (left.last().should_wait && !left.last().next_chain.is_empty()) {
// Join (C0s*; C1) X -> (C0s*; Join C1 X)
auto& lhs_node = left.last().next_chain.last().node;
lhs_node = make_ref_counted<Join>(m_position, lhs_node, m_right);
return make_ref_counted<CommandSequenceValue>(move(left));
}
auto right = TRY(m_right->to_lazy_evaluated_commands(shell));
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
return make_ref_counted<CommandSequenceValue>(join_commands(move(left), move(right)));
}
ErrorOr<void> Join::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
TRY(m_left->highlight_in_editor(editor, shell, metadata));
if (m_left->is_list() || m_left->is_command())
metadata.is_first_in_list = false;
return m_right->highlight_in_editor(editor, shell, metadata);
}
HitTestResult Join::hit_test_position(size_t offset) const
{
auto result = m_left->hit_test_position(offset);
if (result.matching_node)
return result;
return m_right->hit_test_position(offset);
}
RefPtr<Node const> Join::leftmost_trivial_literal() const
{
if (auto value = m_left->leftmost_trivial_literal())
return value;
return m_right->leftmost_trivial_literal();
}
Join::Join(Position position, NonnullRefPtr<Node> left, NonnullRefPtr<Node> right)
: Node(move(position))
, m_left(move(left))
, m_right(move(right))
{
if (m_left->is_syntax_error())
set_is_syntax_error(m_left->syntax_error_node());
else if (m_right->is_syntax_error())
set_is_syntax_error(m_right->syntax_error_node());
}
Join::~Join()
{
}
ErrorOr<void> MatchExpr::dump(int level) const
{
TRY(Node::dump(level));
print_indented(level + 1, "(expression: {})", m_expr_name);
TRY(m_matched_expr->dump(level + 2));
print_indented(level + 1, "(named: {})", m_expr_name);
print_indented(level + 1, "(entries)");
for (auto& entry : m_entries) {
StringBuilder builder;
builder.append("(match"sv);
if (entry.match_names.has_value()) {
builder.append(" to names ("sv);
bool first = true;
for (auto& name : entry.match_names.value()) {
if (!first)
builder.append(' ');
first = false;
builder.append(name);
}
builder.append("))"sv);
} else {
builder.append(')');
}
print_indented(level + 2, "{}", builder.string_view());
TRY(entry.options.visit(
[&](Vector<NonnullRefPtr<Node>> const& options) -> ErrorOr<void> {
for (auto& option : options)
TRY(option->dump(level + 3));
return {};
},
[&](Vector<Regex<ECMA262>> const& options) -> ErrorOr<void> {
for (auto& option : options)
print_indented(level + 3, "(regex: {})", option.pattern_value);
return {};
}));
print_indented(level + 2, "(execute)");
if (entry.body)
TRY(entry.body->dump(level + 3));
else
print_indented(level + 3, "(nothing)"sv);
}
return {};
}
ErrorOr<RefPtr<Value>> MatchExpr::run(RefPtr<Shell> shell)
{
auto value = TRY(TRY(m_matched_expr->run(shell))->resolve_without_cast(shell));
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
auto list = TRY(value->resolve_as_list(shell));
auto list_matches = [&](auto&& pattern, auto& spans) -> ErrorOr<bool> {
if constexpr (IsSame<RemoveCVReference<decltype(pattern)>, Regex<ECMA262>>) {
if (list.size() != 1)
return false;
auto& subject = list.first();
auto match = pattern.match(subject);
if (!match.success)
return false;
spans.ensure_capacity(match.n_capture_groups);
for (size_t i = 0; i < match.n_capture_groups; ++i) {
auto& capture = match.capture_group_matches[0][i];
spans.append(TRY(capture.view.to_string()));
}
return true;
} else {
if (pattern.size() != list.size())
return false;
for (size_t i = 0; i < pattern.size(); ++i) {
Vector<AK::MaskSpan> mask_spans;
if (!list[i].bytes_as_string_view().matches(pattern[i], mask_spans))
return false;
for (auto& span : mask_spans)
spans.append(TRY(list[i].substring_from_byte_offset(span.start, span.length)));
}
return true;
}
};
auto resolve_pattern = [&](auto& option) -> decltype(auto) {
if constexpr (IsSame<RemoveCVReference<decltype(option)>, Regex<ECMA262>>) {
return ErrorOr<Regex<ECMA262>>(move(option));
} else {
Vector<String> pattern;
if (option->is_glob()) {
pattern.append(static_cast<Glob const*>(option.ptr())->text());
} else if (option->is_bareword()) {
pattern.append(static_cast<BarewordLiteral const*>(option.ptr())->text());
} else {
auto list_or_error = option->run(shell);
if (list_or_error.is_error() || (shell && shell->has_any_error()))
return ErrorOr<Vector<String>>(move(pattern));
auto list = list_or_error.release_value();
auto result = option->for_each_entry(shell, [&](auto&& value) -> ErrorOr<IterationDecision> {
pattern.extend(TRY(value->resolve_as_list(nullptr))); // Note: 'nullptr' incurs special behavior,
// asking the node for a 'raw' value.
return IterationDecision::Continue;
});
if (result.is_error())
return ErrorOr<Vector<String>>(result.release_error());
}
return ErrorOr<Vector<String>>(move(pattern));
}
};
auto frame = shell->push_frame(ByteString::formatted("match ({})", this));
if (!m_expr_name.is_empty())
shell->set_local_variable(m_expr_name.to_byte_string(), value, true);
for (auto& entry : m_entries) {
auto result = TRY(entry.options.visit([&](auto& options) -> ErrorOr<Variant<IterationDecision, RefPtr<Value>>> {
for (auto& option : options) {
Vector<String> spans;
if (TRY(list_matches(TRY(resolve_pattern(option)), spans))) {
if (entry.body) {
if (entry.match_names.has_value()) {
size_t i = 0;
for (auto& name : entry.match_names.value()) {
if (spans.size() > i)
shell->set_local_variable(name.to_byte_string(), make_ref_counted<AST::StringValue>(spans[i]), true);
++i;
}
}
return TRY(entry.body->run(shell));
}
return RefPtr<Value>(make_ref_counted<AST::ListValue>({}));
}
}
return IterationDecision::Continue;
}));
if (result.has<IterationDecision>() && result.get<IterationDecision>() == IterationDecision::Break)
break;
if (result.has<RefPtr<Value>>())
return move(result).get<RefPtr<Value>>();
}
// Non-exhaustive 'case' statements are valid in POSIX.
if (!shell || !shell->posix_mode())
shell->raise_error(Shell::ShellError::EvaluatedSyntaxError, "Non-exhaustive match rules!", position());
return make_ref_counted<AST::ListValue>({});
}
ErrorOr<void> MatchExpr::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
editor.stylize({ m_position.start_offset, m_position.start_offset + 5 }, { Line::Style::Foreground(Line::Style::XtermColor::Yellow) });
if (m_as_position.has_value())
editor.stylize({ m_as_position.value().start_offset, m_as_position.value().end_offset }, { Line::Style::Foreground(Line::Style::XtermColor::Yellow) });
metadata.is_first_in_list = false;
TRY(m_matched_expr->highlight_in_editor(editor, shell, metadata));
for (auto& entry : m_entries) {
metadata.is_first_in_list = false;
TRY(entry.options.visit(
[&](Vector<NonnullRefPtr<Node>>& node_options) -> ErrorOr<void> {
for (auto& option : node_options)
TRY(option->highlight_in_editor(editor, shell, metadata));
return {};
},
[](auto&) -> ErrorOr<void> { return {}; }));
metadata.is_first_in_list = true;
if (entry.body)
TRY(entry.body->highlight_in_editor(editor, shell, metadata));
for (auto& position : entry.pipe_positions)
editor.stylize({ position.start_offset, position.end_offset }, { Line::Style::Foreground(Line::Style::XtermColor::Yellow) });
if (entry.match_as_position.has_value())
editor.stylize({ entry.match_as_position.value().start_offset, entry.match_as_position.value().end_offset }, { Line::Style::Foreground(Line::Style::XtermColor::Yellow) });
}
return {};
}
HitTestResult MatchExpr::hit_test_position(size_t offset) const
{
auto result = m_matched_expr->hit_test_position(offset);
if (result.matching_node)
return result;
for (auto& entry : m_entries) {
if (!entry.body)
continue;
auto result = entry.body->hit_test_position(offset);
if (result.matching_node)
return result;
}
return {};
}
MatchExpr::MatchExpr(Position position, NonnullRefPtr<Node> expr, String name, Optional<Position> as_position, Vector<MatchEntry> entries)
: Node(move(position))
, m_matched_expr(move(expr))
, m_expr_name(move(name))
, m_as_position(move(as_position))
, m_entries(move(entries))
{
if (m_matched_expr->is_syntax_error()) {
set_is_syntax_error(m_matched_expr->syntax_error_node());
} else {
for (auto& entry : m_entries) {
if (!entry.body)
continue;
if (entry.body->is_syntax_error()) {
set_is_syntax_error(entry.body->syntax_error_node());
break;
}
}
}
}
MatchExpr::~MatchExpr()
{
}
ErrorOr<void> Or::dump(int level) const
{
TRY(Node::dump(level));
TRY(m_left->dump(level + 1));
TRY(m_right->dump(level + 1));
return {};
}
ErrorOr<RefPtr<Value>> Or::run(RefPtr<Shell> shell)
{
auto commands = TRY(m_left->to_lazy_evaluated_commands(shell));
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
commands.last().next_chain.empend(*m_right, NodeWithAction::Or);
return make_ref_counted<CommandSequenceValue>(move(commands));
}
ErrorOr<void> Or::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
TRY(m_left->highlight_in_editor(editor, shell, metadata));
return m_right->highlight_in_editor(editor, shell, metadata);
}
HitTestResult Or::hit_test_position(size_t offset) const
{
auto result = m_left->hit_test_position(offset);
if (result.matching_node) {
if (!result.closest_command_node)
result.closest_command_node = m_right;
return result;
}
result = m_right->hit_test_position(offset);
if (!result.closest_command_node)
result.closest_command_node = m_right;
return result;
}
Or::Or(Position position, NonnullRefPtr<Node> left, NonnullRefPtr<Node> right, Position or_position)
: Node(move(position))
, m_left(move(left))
, m_right(move(right))
, m_or_position(or_position)
{
if (m_left->is_syntax_error())
set_is_syntax_error(m_left->syntax_error_node());
else if (m_right->is_syntax_error())
set_is_syntax_error(m_right->syntax_error_node());
}
Or::~Or()
{
}
ErrorOr<void> Pipe::dump(int level) const
{
TRY(Node::dump(level));
TRY(m_left->dump(level + 1));
TRY(m_right->dump(level + 1));
return {};
}
ErrorOr<RefPtr<Value>> Pipe::run(RefPtr<Shell> shell)
{
auto left = TRY(m_left->to_lazy_evaluated_commands(shell));
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
auto right = TRY(m_right->to_lazy_evaluated_commands(shell));
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
auto last_in_left = left.take_last();
auto first_in_right = right.take_first();
auto pipe_read_end = FdRedirection::create(-1, STDIN_FILENO, Rewiring::Close::Old);
auto pipe_write_end = FdRedirection::create(-1, STDOUT_FILENO, pipe_read_end, Rewiring::Close::RefreshOld);
auto insert_at_start_or_after_last_pipe = [&](auto& pipe, auto& command) {
size_t insert_index = 0;
auto& redirections = command.redirections;
for (ssize_t i = redirections.size() - 1; i >= 0; --i) {
auto& redirection = redirections[i];
if (!redirection->is_fd_redirection())
continue;
auto& fd_redirection = static_cast<FdRedirection&>(*redirection);
if (fd_redirection.old_fd == -1) {
insert_index = i;
break;
}
}
redirections.insert(insert_index, pipe);
};
insert_at_start_or_after_last_pipe(pipe_read_end, first_in_right);
insert_at_start_or_after_last_pipe(pipe_write_end, last_in_left);
last_in_left.should_wait = false;
last_in_left.is_pipe_source = true;
if (first_in_right.pipeline) {
last_in_left.pipeline = first_in_right.pipeline;
} else {
auto pipeline = make_ref_counted<Pipeline>();
last_in_left.pipeline = pipeline;
first_in_right.pipeline = pipeline;
}
Vector<Command> commands;
commands.extend(left);
commands.append(last_in_left);
commands.append(first_in_right);
commands.extend(right);
return make_ref_counted<CommandSequenceValue>(move(commands));
}
ErrorOr<void> Pipe::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
TRY(m_left->highlight_in_editor(editor, shell, metadata));
return m_right->highlight_in_editor(editor, shell, metadata);
}
HitTestResult Pipe::hit_test_position(size_t offset) const
{
auto result = m_left->hit_test_position(offset);
if (result.matching_node) {
if (!result.closest_command_node)
result.closest_command_node = m_right;
return result;
}
result = m_right->hit_test_position(offset);
if (!result.closest_command_node)
result.closest_command_node = m_right;
return result;
}
Pipe::Pipe(Position position, NonnullRefPtr<Node> left, NonnullRefPtr<Node> right)
: Node(move(position))
, m_left(move(left))
, m_right(move(right))
{
if (m_left->is_syntax_error())
set_is_syntax_error(m_left->syntax_error_node());
else if (m_right->is_syntax_error())
set_is_syntax_error(m_right->syntax_error_node());
}
Pipe::~Pipe()
{
}
PathRedirectionNode::PathRedirectionNode(Position position, int fd, NonnullRefPtr<Node> path)
: Node(move(position))
, m_fd(fd)
, m_path(move(path))
{
}
ErrorOr<void> PathRedirectionNode::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
editor.stylize({ m_position.start_offset, m_position.end_offset }, { Line::Style::Foreground(0x87, 0x9b, 0xcd) }); // 25% Darkened Periwinkle
metadata.is_first_in_list = false;
TRY(m_path->highlight_in_editor(editor, shell, metadata));
if (m_path->is_bareword()) {
auto path_text = TRY(TRY(m_path->run(nullptr))->resolve_as_list(nullptr));
VERIFY(path_text.size() == 1);
// Apply a URL to the path.
auto& position = m_path->position();
auto& path = path_text[0];
if (!path.starts_with('/'))
path = TRY(String::formatted("{}/{}", shell.cwd, path));
auto url = URL::create_with_file_scheme(path.to_byte_string());
url.set_host(TRY(String::from_byte_string(shell.hostname)));
editor.stylize({ position.start_offset, position.end_offset }, { Line::Style::Hyperlink(url.to_byte_string()) });
}
return {};
}
HitTestResult PathRedirectionNode::hit_test_position(size_t offset) const
{
auto result = m_path->hit_test_position(offset);
if (!result.closest_node_with_semantic_meaning)
result.closest_node_with_semantic_meaning = this;
return result;
}
ErrorOr<Vector<Line::CompletionSuggestion>> PathRedirectionNode::complete_for_editor(Shell& shell, size_t offset, HitTestResult const& hit_test_result) const
{
auto matching_node = hit_test_result.matching_node;
if (!matching_node || !matching_node->is_bareword())
return Vector<Line::CompletionSuggestion> {};
auto corrected_offset = offset - matching_node->position().start_offset;
auto* node = static_cast<BarewordLiteral const*>(matching_node.ptr());
if (corrected_offset > node->text().bytes_as_string_view().length())
return Vector<Line::CompletionSuggestion> {};
return shell.complete_path(""sv, node->text(), corrected_offset, Shell::ExecutableOnly::No, nullptr, nullptr);
}
PathRedirectionNode::~PathRedirectionNode()
{
}
ErrorOr<void> Range::dump(int level) const
{
TRY(Node::dump(level));
print_indented(level + 1, "(From)");
TRY(m_start->dump(level + 2));
print_indented(level + 1, "(To)");
TRY(m_end->dump(level + 2));
return {};
}
ErrorOr<RefPtr<Value>> Range::run(RefPtr<Shell> shell)
{
auto interpolate = [position = position()](RefPtr<Value> start, RefPtr<Value> end, RefPtr<Shell> shell) -> ErrorOr<Vector<NonnullRefPtr<Value>>> {
Vector<NonnullRefPtr<Value>> values;
if (start->is_string() && end->is_string()) {
auto start_str = TRY(start->resolve_as_list(shell))[0];
auto end_str = TRY(end->resolve_as_list(shell))[0];
Utf8View start_view { start_str }, end_view { end_str };
if (start_view.validate() && end_view.validate()) {
if (start_view.length() == 1 && end_view.length() == 1) {
// Interpolate between two code points.
auto start_code_point = *start_view.begin();
auto end_code_point = *end_view.begin();
auto step = start_code_point > end_code_point ? -1 : 1;
StringBuilder builder;
for (u32 code_point = start_code_point; code_point != end_code_point; code_point += step) {
builder.clear();
builder.append_code_point(code_point);
values.append(make_ref_counted<StringValue>(TRY(builder.to_string())));
}
// Append the ending code point too, most shells treat this as inclusive.
builder.clear();
builder.append_code_point(end_code_point);
values.append(make_ref_counted<StringValue>(TRY(builder.to_string())));
} else {
// Could be two numbers?
auto start_int = start_str.to_number<int>();
auto end_int = end_str.to_number<int>();
if (start_int.has_value() && end_int.has_value()) {
auto start = start_int.value();
auto end = end_int.value();
auto step = start > end ? -1 : 1;
for (int value = start; value != end; value += step)
values.append(make_ref_counted<StringValue>(TRY(String::number(value))));
// Append the range end too, most shells treat this as inclusive.
values.append(make_ref_counted<StringValue>(TRY(String::number(end))));
} else {
goto yield_start_end;
}
}
} else {
yield_start_end:;
shell->raise_error(Shell::ShellError::EvaluatedSyntaxError, ByteString::formatted("Cannot interpolate between '{}' and '{}'!", start_str, end_str), position);
// We can't really interpolate between the two, so just yield both.
values.append(make_ref_counted<StringValue>(move(start_str)));
values.append(make_ref_counted<StringValue>(move(end_str)));
}
return values;
}
warnln("Shell: Cannot apply the requested interpolation");
return values;
};
auto start_value = TRY(m_start->run(shell));
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
auto end_value = TRY(m_end->run(shell));
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
if (!start_value || !end_value)
return make_ref_counted<ListValue>({});
return make_ref_counted<ListValue>(TRY(interpolate(*start_value, *end_value, shell)));
}
ErrorOr<void> Range::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
TRY(m_start->highlight_in_editor(editor, shell, metadata));
// Highlight the '..'
editor.stylize({ m_start->position().end_offset, m_end->position().start_offset }, { Line::Style::Foreground(Line::Style::XtermColor::Yellow) });
metadata.is_first_in_list = false;
return m_end->highlight_in_editor(editor, shell, metadata);
}
HitTestResult Range::hit_test_position(size_t offset) const
{
auto result = m_start->hit_test_position(offset);
if (result.matching_node) {
if (!result.closest_command_node)
result.closest_command_node = m_start;
return result;
}
result = m_end->hit_test_position(offset);
if (!result.closest_command_node)
result.closest_command_node = m_end;
return result;
}
Range::Range(Position position, NonnullRefPtr<Node> start, NonnullRefPtr<Node> end)
: Node(move(position))
, m_start(move(start))
, m_end(move(end))
{
if (m_start->is_syntax_error())
set_is_syntax_error(m_start->syntax_error_node());
else if (m_end->is_syntax_error())
set_is_syntax_error(m_end->syntax_error_node());
}
Range::~Range()
{
}
ErrorOr<void> ReadRedirection::dump(int level) const
{
TRY(Node::dump(level));
TRY(m_path->dump(level + 1));
print_indented(level + 1, "To {}", m_fd);
return {};
}
ErrorOr<RefPtr<Value>> ReadRedirection::run(RefPtr<Shell> shell)
{
Command command;
auto path_segments = TRY(TRY(m_path->run(shell))->resolve_as_list(shell));
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
StringBuilder builder;
builder.join(' ', path_segments);
command.redirections.append(PathRedirection::create(TRY(builder.to_string()), m_fd, PathRedirection::Read));
return make_ref_counted<CommandValue>(move(command));
}
ReadRedirection::ReadRedirection(Position position, int fd, NonnullRefPtr<Node> path)
: PathRedirectionNode(move(position), fd, move(path))
{
}
ReadRedirection::~ReadRedirection()
{
}
ErrorOr<void> ReadWriteRedirection::dump(int level) const
{
TRY(Node::dump(level));
TRY(m_path->dump(level + 1));
print_indented(level + 1, "To/From {}", m_fd);
return {};
}
ErrorOr<RefPtr<Value>> ReadWriteRedirection::run(RefPtr<Shell> shell)
{
Command command;
auto path_segments = TRY(TRY(m_path->run(shell))->resolve_as_list(shell));
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
StringBuilder builder;
builder.join(' ', path_segments);
command.redirections.append(PathRedirection::create(TRY(builder.to_string()), m_fd, PathRedirection::ReadWrite));
return make_ref_counted<CommandValue>(move(command));
}
ReadWriteRedirection::ReadWriteRedirection(Position position, int fd, NonnullRefPtr<Node> path)
: PathRedirectionNode(move(position), fd, move(path))
{
}
ReadWriteRedirection::~ReadWriteRedirection()
{
}
ErrorOr<void> Sequence::dump(int level) const
{
TRY(Node::dump(level));
for (auto& entry : m_entries)
TRY(entry->dump(level + 1));
return {};
}
ErrorOr<RefPtr<Value>> Sequence::run(RefPtr<Shell> shell)
{
Vector<Command> all_commands;
Command* last_command_in_sequence = nullptr;
for (auto& entry : m_entries) {
if (shell && shell->has_any_error())
break;
if (!last_command_in_sequence) {
auto commands = TRY(entry->to_lazy_evaluated_commands(shell));
all_commands.extend(move(commands));
last_command_in_sequence = &all_commands.last();
continue;
}
if (last_command_in_sequence->should_wait) {
last_command_in_sequence->next_chain.append(NodeWithAction { entry, NodeWithAction::Sequence });
} else {
all_commands.extend(TRY(entry->to_lazy_evaluated_commands(shell)));
last_command_in_sequence = &all_commands.last();
}
}
return make_ref_counted<CommandSequenceValue>(move(all_commands));
}
ErrorOr<void> Sequence::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
for (auto& entry : m_entries)
TRY(entry->highlight_in_editor(editor, shell, metadata));
return {};
}
HitTestResult Sequence::hit_test_position(size_t offset) const
{
for (auto& entry : m_entries) {
auto result = entry->hit_test_position(offset);
if (result.matching_node) {
if (!result.closest_command_node)
result.closest_command_node = entry;
return result;
}
}
return {};
}
RefPtr<Node const> Sequence::leftmost_trivial_literal() const
{
for (auto& entry : m_entries) {
if (auto node = entry->leftmost_trivial_literal())
return node;
}
return nullptr;
}
Sequence::Sequence(Position position, Vector<NonnullRefPtr<Node>> entries, Vector<Position> separator_positions)
: Node(move(position))
, m_entries(move(entries))
, m_separator_positions(separator_positions)
{
for (auto& entry : m_entries) {
if (entry->is_syntax_error()) {
set_is_syntax_error(entry->syntax_error_node());
break;
}
}
}
Sequence::~Sequence()
{
}
ErrorOr<void> Subshell::dump(int level) const
{
TRY(Node::dump(level));
if (m_block)
TRY(m_block->dump(level + 1));
return {};
}
ErrorOr<RefPtr<Value>> Subshell::run(RefPtr<Shell> shell)
{
if (!m_block)
return make_ref_counted<ListValue>({});
return make_ref_counted<AST::CommandSequenceValue>(TRY(m_block->to_lazy_evaluated_commands(shell)));
}
ErrorOr<void> Subshell::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
metadata.is_first_in_list = true;
if (m_block)
TRY(m_block->highlight_in_editor(editor, shell, metadata));
return {};
}
HitTestResult Subshell::hit_test_position(size_t offset) const
{
if (m_block)
return m_block->hit_test_position(offset);
return {};
}
Subshell::Subshell(Position position, RefPtr<Node> block)
: Node(move(position))
, m_block(block)
{
if (m_block && m_block->is_syntax_error())
set_is_syntax_error(m_block->syntax_error_node());
}
Subshell::~Subshell()
{
}
ErrorOr<void> Slice::dump(int level) const
{
TRY(Node::dump(level));
TRY(m_selector->dump(level + 1));
return {};
}
ErrorOr<RefPtr<Value>> Slice::run(RefPtr<Shell> shell)
{
return m_selector->run(shell);
}
ErrorOr<void> Slice::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
return m_selector->highlight_in_editor(editor, shell, metadata);
}
HitTestResult Slice::hit_test_position(size_t offset) const
{
return m_selector->hit_test_position(offset);
}
ErrorOr<Vector<Line::CompletionSuggestion>> Slice::complete_for_editor(Shell& shell, size_t offset, HitTestResult const& hit_test_result) const
{
// TODO: Maybe intercept this, and suggest values in range?
return m_selector->complete_for_editor(shell, offset, hit_test_result);
}
Slice::Slice(Position position, NonnullRefPtr<AST::Node> selector)
: Node(move(position))
, m_selector(move(selector))
{
if (m_selector->is_syntax_error())
set_is_syntax_error(m_selector->syntax_error_node());
}
Slice::~Slice()
{
}
ErrorOr<void> SimpleVariable::dump(int level) const
{
TRY(Node::dump(level));
print_indented(level + 1, "(Name)");
print_indented(level + 2, "{}", m_name);
print_indented(level + 1, "(Slice)");
if (m_slice)
TRY(m_slice->dump(level + 2));
else
print_indented(level + 2, "(None)");
return {};
}
ErrorOr<RefPtr<Value>> SimpleVariable::run(RefPtr<Shell>)
{
NonnullRefPtr<Value> value = make_ref_counted<SimpleVariableValue>(m_name);
if (m_slice)
value = TRY(value->with_slices(*m_slice));
return value;
}
ErrorOr<void> SimpleVariable::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
Line::Style style { Line::Style::Foreground(214, 112, 214) };
if (metadata.is_first_in_list)
style.unify_with({ Line::Style::Bold });
editor.stylize({ m_position.start_offset, m_position.end_offset }, move(style));
if (m_slice)
TRY(m_slice->highlight_in_editor(editor, shell, metadata));
return {};
}
HitTestResult SimpleVariable::hit_test_position(size_t offset) const
{
if (!position().contains(offset))
return {};
if (m_slice && m_slice->position().contains(offset))
return m_slice->hit_test_position(offset);
return { this, this, nullptr };
}
ErrorOr<Vector<Line::CompletionSuggestion>> SimpleVariable::complete_for_editor(Shell& shell, size_t offset, HitTestResult const& hit_test_result) const
{
auto matching_node = hit_test_result.matching_node;
if (!matching_node)
return Vector<Line::CompletionSuggestion> {};
if (matching_node != this)
return Vector<Line::CompletionSuggestion> {};
auto corrected_offset = offset - matching_node->position().start_offset - 1;
if (corrected_offset > m_name.bytes_as_string_view().length() + 1)
return Vector<Line::CompletionSuggestion> {};
return shell.complete_variable(m_name, corrected_offset);
}
SimpleVariable::SimpleVariable(Position position, String name)
: VariableNode(move(position))
, m_name(move(name))
{
}
SimpleVariable::~SimpleVariable()
{
}
ErrorOr<void> SpecialVariable::dump(int level) const
{
TRY(Node::dump(level));
print_indented(level + 1, "(Name)");
print_indented(level + 1, "{:c}", m_name);
print_indented(level + 1, "(Slice)");
if (m_slice)
TRY(m_slice->dump(level + 2));
else
print_indented(level + 2, "(None)");
return {};
}
ErrorOr<RefPtr<Value>> SpecialVariable::run(RefPtr<Shell>)
{
NonnullRefPtr<Value> value = make_ref_counted<SpecialVariableValue>(m_name);
if (m_slice)
value = TRY(value->with_slices(*m_slice));
return value;
}
ErrorOr<void> SpecialVariable::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
editor.stylize({ m_position.start_offset, m_position.end_offset }, { Line::Style::Foreground(214, 112, 214) });
if (m_slice)
TRY(m_slice->highlight_in_editor(editor, shell, metadata));
return {};
}
ErrorOr<Vector<Line::CompletionSuggestion>> SpecialVariable::complete_for_editor(Shell&, size_t, HitTestResult const&) const
{
return Vector<Line::CompletionSuggestion> {};
}
HitTestResult SpecialVariable::hit_test_position(size_t offset) const
{
if (m_slice && m_slice->position().contains(offset))
return m_slice->hit_test_position(offset);
return { this, this, nullptr };
}
SpecialVariable::SpecialVariable(Position position, char name)
: VariableNode(move(position))
, m_name(name)
{
}
SpecialVariable::~SpecialVariable()
{
}
ErrorOr<void> Juxtaposition::dump(int level) const
{
TRY(Node::dump(level));
TRY(m_left->dump(level + 1));
TRY(m_right->dump(level + 1));
return {};
}
ErrorOr<RefPtr<Value>> Juxtaposition::run(RefPtr<Shell> shell)
{
auto left_value = TRY(TRY(m_left->run(shell))->resolve_without_cast(shell));
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
auto right_value = TRY(TRY(m_right->run(shell))->resolve_without_cast(shell));
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
auto left = TRY(left_value->resolve_as_list(shell));
auto right = TRY(right_value->resolve_as_list(shell));
if (m_mode == Mode::StringExpand) {
Vector<String> result;
result.ensure_capacity(left.size() + right.size());
for (auto& left_item : left)
result.append(left_item);
if (!result.is_empty() && !right.is_empty()) {
auto& last = result.last();
last = TRY(String::formatted("{}{}", last, right.first()));
right.take_first();
}
for (auto& right_item : right)
result.append(right_item);
return make_ref_counted<ListValue>(move(result));
}
if (left_value->is_string() && right_value->is_string()) {
VERIFY(left.size() == 1);
VERIFY(right.size() == 1);
StringBuilder builder;
builder.append(left[0]);
builder.append(right[0]);
return make_ref_counted<StringValue>(TRY(builder.to_string()));
}
// Otherwise, treat them as lists and create a list product (or just append).
if (left.is_empty() || right.is_empty())
return make_ref_counted<ListValue>({});
Vector<String> result;
result.ensure_capacity(left.size() * right.size());
StringBuilder builder;
for (auto& left_element : left) {
for (auto& right_element : right) {
builder.append(left_element);
builder.append(right_element);
result.append(TRY(builder.to_string()));
builder.clear();
}
}
return make_ref_counted<ListValue>(move(result));
}
ErrorOr<void> Juxtaposition::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
TRY(m_left->highlight_in_editor(editor, shell, metadata));
// '~/foo/bar' is special, we have to actually resolve the tilde
// since that resolution is a pure operation, we can just go ahead
// and do it to get the value :)
if (m_right->is_bareword() && m_left->is_tilde()) {
auto tilde_value = TRY(TRY(m_left->run(shell))->resolve_as_list(shell))[0];
auto bareword_value = TRY(TRY(m_right->run(shell))->resolve_as_list(shell))[0];
StringBuilder path_builder;
path_builder.append(tilde_value);
path_builder.append('/');
path_builder.append(bareword_value);
auto path = path_builder.to_byte_string();
if (FileSystem::exists(path)) {
auto realpath = shell.resolve_path(path);
auto url = URL::create_with_file_scheme(realpath);
url.set_host(TRY(String::from_byte_string(shell.hostname)));
editor.stylize({ m_position.start_offset, m_position.end_offset }, { Line::Style::Hyperlink(url.to_byte_string()) });
}
} else {
TRY(m_right->highlight_in_editor(editor, shell, metadata));
}
return {};
}
ErrorOr<Vector<Line::CompletionSuggestion>> Juxtaposition::complete_for_editor(Shell& shell, size_t offset, HitTestResult const& hit_test_result) const
{
auto matching_node = hit_test_result.matching_node;
if (m_left->would_execute() || m_right->would_execute()) {
return Vector<Line::CompletionSuggestion> {};
}
// '~/foo/bar' is special, we have to actually resolve the tilde
// then complete the bareword with that path prefix.
auto left_values = TRY(TRY(m_left->run(shell))->resolve_as_list(shell));
if (left_values.is_empty())
return m_right->complete_for_editor(shell, offset, hit_test_result);
auto& left_value = left_values.first();
auto right_values = TRY(TRY(m_right->run(shell))->resolve_as_list(shell));
StringView right_value {};
auto corrected_offset = offset - matching_node->position().start_offset;
if (!right_values.is_empty())
right_value = right_values.first();
if (m_left->is_tilde() && !right_value.is_empty()) {
right_value = right_value.substring_view(1);
corrected_offset--;
}
if (corrected_offset > right_value.length())
return Vector<Line::CompletionSuggestion> {};
return shell.complete_path(left_value, right_value, corrected_offset, Shell::ExecutableOnly::No, hit_test_result.closest_command_node.ptr(), hit_test_result.matching_node);
}
HitTestResult Juxtaposition::hit_test_position(size_t offset) const
{
auto result = m_left->hit_test_position(offset);
if (!result.closest_node_with_semantic_meaning)
result.closest_node_with_semantic_meaning = this;
if (result.matching_node)
return result;
result = m_right->hit_test_position(offset);
if (!result.closest_node_with_semantic_meaning)
result.closest_node_with_semantic_meaning = this;
return result;
}
Juxtaposition::Juxtaposition(Position position, NonnullRefPtr<Node> left, NonnullRefPtr<Node> right, Juxtaposition::Mode mode)
: Node(move(position))
, m_left(move(left))
, m_right(move(right))
, m_mode(mode)
{
if (m_left->is_syntax_error())
set_is_syntax_error(m_left->syntax_error_node());
else if (m_right->is_syntax_error())
set_is_syntax_error(m_right->syntax_error_node());
}
Juxtaposition::~Juxtaposition()
{
}
ErrorOr<void> StringLiteral::dump(int level) const
{
TRY(Node::dump(level));
print_indented(level + 1, "{}", m_text);
return {};
}
ErrorOr<RefPtr<Value>> StringLiteral::run(RefPtr<Shell>)
{
return make_ref_counted<StringValue>(m_text);
}
ErrorOr<void> StringLiteral::highlight_in_editor(Line::Editor& editor, Shell&, HighlightMetadata metadata)
{
if (m_text.is_empty())
return {};
Line::Style style { Line::Style::Foreground(Line::Style::XtermColor::Yellow) };
if (metadata.is_first_in_list)
style.unify_with({ Line::Style::Bold });
editor.stylize({ m_position.start_offset, m_position.end_offset }, move(style));
return {};
}
StringLiteral::StringLiteral(Position position, String text, EnclosureType enclosure_type)
: Node(move(position))
, m_text(move(text))
, m_enclosure_type(enclosure_type)
{
}
StringLiteral::~StringLiteral()
{
}
ErrorOr<void> StringPartCompose::dump(int level) const
{
TRY(Node::dump(level));
TRY(m_left->dump(level + 1));
TRY(m_right->dump(level + 1));
return {};
}
ErrorOr<RefPtr<Value>> StringPartCompose::run(RefPtr<Shell> shell)
{
auto left = TRY(TRY(m_left->run(shell))->resolve_as_list(shell));
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
auto right = TRY(TRY(m_right->run(shell))->resolve_as_list(shell));
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
StringBuilder builder;
builder.join(' ', left);
builder.join(' ', right);
return make_ref_counted<StringValue>(TRY(builder.to_string()));
}
ErrorOr<void> StringPartCompose::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
TRY(m_left->highlight_in_editor(editor, shell, metadata));
return m_right->highlight_in_editor(editor, shell, metadata);
}
HitTestResult StringPartCompose::hit_test_position(size_t offset) const
{
auto result = m_left->hit_test_position(offset);
if (result.matching_node)
return result;
return m_right->hit_test_position(offset);
}
StringPartCompose::StringPartCompose(Position position, NonnullRefPtr<Node> left, NonnullRefPtr<Node> right)
: Node(move(position))
, m_left(move(left))
, m_right(move(right))
{
if (m_left->is_syntax_error())
set_is_syntax_error(m_left->syntax_error_node());
else if (m_right->is_syntax_error())
set_is_syntax_error(m_right->syntax_error_node());
}
StringPartCompose::~StringPartCompose()
{
}
ErrorOr<void> SyntaxError::dump(int level) const
{
TRY(Node::dump(level));
print_indented(level + 1, "(Error text)");
print_indented(level + 2, "{}", m_syntax_error_text);
print_indented(level + 1, "(Can be recovered from)");
print_indented(level + 2, "{}", m_is_continuable);
return {};
}
ErrorOr<RefPtr<Value>> SyntaxError::run(RefPtr<Shell> shell)
{
shell->raise_error(Shell::ShellError::EvaluatedSyntaxError, m_syntax_error_text.to_byte_string(), position());
return make_ref_counted<StringValue>(String {});
}
ErrorOr<void> SyntaxError::highlight_in_editor(Line::Editor& editor, Shell&, HighlightMetadata)
{
editor.stylize({ m_position.start_offset, m_position.end_offset }, { Line::Style::Foreground(Line::Style::XtermColor::Red), Line::Style::Bold });
return {};
}
SyntaxError::SyntaxError(Position position, String error, bool is_continuable)
: Node(move(position))
, m_syntax_error_text(move(error))
, m_is_continuable(is_continuable)
{
}
SyntaxError& SyntaxError::syntax_error_node()
{
return *this;
}
SyntaxError::~SyntaxError()
{
}
ErrorOr<void> SyntheticNode::dump(int level) const
{
TRY(Node::dump(level));
return {};
}
ErrorOr<RefPtr<Value>> SyntheticNode::run(RefPtr<Shell>)
{
return m_value;
}
ErrorOr<void> SyntheticNode::highlight_in_editor(Line::Editor&, Shell&, HighlightMetadata)
{
return {};
}
SyntheticNode::SyntheticNode(Position position, NonnullRefPtr<Value> value)
: Node(move(position))
, m_value(move(value))
{
}
ErrorOr<void> Tilde::dump(int level) const
{
TRY(Node::dump(level));
print_indented(level + 1, "{}", m_username);
return {};
}
ErrorOr<RefPtr<Value>> Tilde::run(RefPtr<Shell>)
{
return make_ref_counted<TildeValue>(m_username);
}
ErrorOr<void> Tilde::highlight_in_editor(Line::Editor&, Shell&, HighlightMetadata)
{
return {};
}
HitTestResult Tilde::hit_test_position(size_t offset) const
{
if (!position().contains(offset))
return {};
return { this, this, nullptr };
}
ErrorOr<Vector<Line::CompletionSuggestion>> Tilde::complete_for_editor(Shell& shell, size_t offset, HitTestResult const& hit_test_result) const
{
auto matching_node = hit_test_result.matching_node;
if (!matching_node)
return Vector<Line::CompletionSuggestion> {};
if (matching_node != this)
return Vector<Line::CompletionSuggestion> {};
auto corrected_offset = offset - matching_node->position().start_offset - 1;
if (corrected_offset > m_username.bytes_as_string_view().length() + 1)
return Vector<Line::CompletionSuggestion> {};
return shell.complete_user(m_username, corrected_offset);
}
String Tilde::text() const
{
StringBuilder builder;
builder.append('~');
builder.append(m_username);
return builder.to_string().release_value_but_fixme_should_propagate_errors();
}
Tilde::Tilde(Position position, String username)
: Node(move(position))
, m_username(move(username))
{
}
Tilde::~Tilde()
{
}
ErrorOr<void> WriteAppendRedirection::dump(int level) const
{
TRY(Node::dump(level));
TRY(m_path->dump(level + 1));
print_indented(level + 1, "From {}", m_fd);
return {};
}
ErrorOr<RefPtr<Value>> WriteAppendRedirection::run(RefPtr<Shell> shell)
{
Command command;
auto path_segments = TRY(TRY(m_path->run(shell))->resolve_as_list(shell));
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
StringBuilder builder;
builder.join(' ', path_segments);
command.redirections.append(PathRedirection::create(TRY(builder.to_string()), m_fd, PathRedirection::WriteAppend));
return make_ref_counted<CommandValue>(move(command));
}
WriteAppendRedirection::WriteAppendRedirection(Position position, int fd, NonnullRefPtr<Node> path)
: PathRedirectionNode(move(position), fd, move(path))
{
}
WriteAppendRedirection::~WriteAppendRedirection()
{
}
ErrorOr<void> WriteRedirection::dump(int level) const
{
TRY(Node::dump(level));
TRY(m_path->dump(level + 1));
print_indented(level + 1, "From {}", m_fd);
return {};
}
ErrorOr<RefPtr<Value>> WriteRedirection::run(RefPtr<Shell> shell)
{
Command command;
auto path_segments = TRY(TRY(m_path->run(shell))->resolve_as_list(shell));
if (shell && shell->has_any_error())
return make_ref_counted<ListValue>({});
StringBuilder builder;
builder.join(' ', path_segments);
command.redirections.append(PathRedirection::create(TRY(builder.to_string()), m_fd, PathRedirection::Write));
return make_ref_counted<CommandValue>(move(command));
}
WriteRedirection::WriteRedirection(Position position, int fd, NonnullRefPtr<Node> path)
: PathRedirectionNode(move(position), fd, move(path))
{
}
WriteRedirection::~WriteRedirection()
{
}
ErrorOr<void> VariableDeclarations::dump(int level) const
{
TRY(Node::dump(level));
for (auto& var : m_variables) {
print_indented(level + 1, "Set");
TRY(var.name->dump(level + 2));
TRY(var.value->dump(level + 2));
}
return {};
}
ErrorOr<RefPtr<Value>> VariableDeclarations::run(RefPtr<Shell> shell)
{
for (auto& var : m_variables) {
auto name_value = TRY(TRY(var.name->run(shell))->resolve_as_list(shell));
if (shell && shell->has_any_error())
break;
VERIFY(name_value.size() == 1);
auto name = name_value[0];
auto value = TRY(var.value->run(shell));
if (shell && shell->has_any_error())
break;
value = TRY(value->resolve_without_cast(shell));
shell->set_local_variable(name.to_byte_string(), value.release_nonnull());
}
return make_ref_counted<ListValue>({});
}
ErrorOr<void> VariableDeclarations::highlight_in_editor(Line::Editor& editor, Shell& shell, HighlightMetadata metadata)
{
metadata.is_first_in_list = false;
for (auto& var : m_variables) {
TRY(var.name->highlight_in_editor(editor, shell, metadata));
// Highlight the '='.
editor.stylize({ var.name->position().end_offset - 1, var.name->position().end_offset }, { Line::Style::Foreground(Line::Style::XtermColor::Blue) });
TRY(var.value->highlight_in_editor(editor, shell, metadata));
}
return {};
}
HitTestResult VariableDeclarations::hit_test_position(size_t offset) const
{
for (auto decl : m_variables) {
auto result = decl.value->hit_test_position(offset);
if (result.matching_node)
return result;
}
return { nullptr, nullptr, nullptr };
}
VariableDeclarations::VariableDeclarations(Position position, Vector<Variable> variables)
: Node(move(position))
, m_variables(move(variables))
{
for (auto& decl : m_variables) {
if (decl.name->is_syntax_error()) {
set_is_syntax_error(decl.name->syntax_error_node());
break;
}
if (decl.value->is_syntax_error()) {
set_is_syntax_error(decl.value->syntax_error_node());
break;
}
}
}
VariableDeclarations::~VariableDeclarations()
{
}
Value::~Value()
{
}
ErrorOr<String> Value::resolve_as_string(RefPtr<Shell> shell)
{
if (shell)
shell->raise_error(Shell::ShellError::EvaluatedSyntaxError, "Conversion to string not allowed");
return String {};
}
ErrorOr<Vector<AST::Command>> Value::resolve_as_commands(RefPtr<Shell> shell)
{
Command command;
command.argv = TRY(resolve_as_list(shell));
return Vector { move(command) };
}
ListValue::ListValue(Vector<String> values)
{
if (values.is_empty())
return;
m_contained_values.ensure_capacity(values.size());
for (auto& str : values)
m_contained_values.append(adopt_ref(*new StringValue(move(str))));
}
ErrorOr<NonnullRefPtr<Value>> Value::with_slices(NonnullRefPtr<Slice> slice) const&
{
auto value = TRY(clone());
value->m_slices.append(move(slice));
return value;
}
ErrorOr<NonnullRefPtr<Value>> Value::with_slices(Vector<NonnullRefPtr<Slice>> slices) const&
{
auto value = TRY(clone());
value->m_slices.extend(move(slices));
return value;
}
ListValue::~ListValue()
{
}
ErrorOr<Vector<String>> ListValue::resolve_as_list(RefPtr<Shell> shell)
{
Vector<String> values;
for (auto& value : m_contained_values)
values.extend(TRY(value->resolve_as_list(shell)));
return resolve_slices(shell, move(values), m_slices);
}
ErrorOr<String> ListValue::resolve_as_string(RefPtr<Shell> shell)
{
if (!shell || !shell->posix_mode())
return Value::resolve_as_string(shell);
if (m_contained_values.is_empty())
return resolve_slices(shell, String {}, m_slices);
return resolve_slices(shell, TRY(m_contained_values[0]->resolve_as_string(shell)), m_slices);
}
ErrorOr<NonnullRefPtr<Value>> ListValue::resolve_without_cast(RefPtr<Shell> shell)
{
Vector<NonnullRefPtr<Value>> values;
for (auto& value : m_contained_values)
values.append(TRY(value->resolve_without_cast(shell)));
NonnullRefPtr<Value> value = make_ref_counted<ListValue>(move(values));
if (!m_slices.is_empty())
value = TRY(value->with_slices(m_slices));
return value;
}
CommandValue::~CommandValue()
{
}
CommandSequenceValue::~CommandSequenceValue()
{
}
ErrorOr<Vector<String>> CommandSequenceValue::resolve_as_list(RefPtr<Shell> shell)
{
shell->raise_error(Shell::ShellError::EvaluatedSyntaxError, "Unexpected cast of a command sequence to a list");
return Vector<String> {};
}
ErrorOr<Vector<Command>> CommandSequenceValue::resolve_as_commands(RefPtr<Shell>)
{
return m_contained_values;
}
ErrorOr<Vector<String>> CommandValue::resolve_as_list(RefPtr<Shell>)
{
return m_command.argv;
}
ErrorOr<Vector<Command>> CommandValue::resolve_as_commands(RefPtr<Shell>)
{
return Vector { m_command };
}
JobValue::~JobValue()
{
}
StringValue::~StringValue()
{
}
ErrorOr<String> StringValue::resolve_as_string(RefPtr<Shell> shell)
{
if (m_split.is_empty())
return TRY(resolve_slices(shell, String { m_string }, m_slices));
return Value::resolve_as_string(shell);
}
ErrorOr<Vector<String>> StringValue::resolve_as_list(RefPtr<Shell> shell)
{
if (is_list()) {
auto parts = StringView(m_string).split_view(m_split, m_keep_empty ? SplitBehavior::KeepEmpty : SplitBehavior::Nothing);
Vector<String> result;
result.ensure_capacity(parts.size());
for (auto& part : parts)
result.append(TRY(String::from_utf8(part)));
return resolve_slices(shell, move(result), m_slices);
}
return Vector<String> { TRY(resolve_slices(shell, String { m_string }, m_slices)) };
}
ErrorOr<NonnullRefPtr<Value>> StringValue::resolve_without_cast(RefPtr<Shell> shell)
{
if (is_list())
return try_make_ref_counted<AST::ListValue>(TRY(resolve_as_list(shell))); // No need to reapply the slices.
return *this;
}
GlobValue::~GlobValue()
{
}
ErrorOr<Vector<String>> GlobValue::resolve_as_list(RefPtr<Shell> shell)
{
if (!shell)
return resolve_slices(shell, Vector { m_glob }, m_slices);
auto results = TRY(shell->expand_globs(m_glob, shell->cwd));
if (results.is_empty())
shell->raise_error(Shell::ShellError::InvalidGlobError, "Glob did not match anything!", m_generation_position);
Vector<String> strings;
TRY(strings.try_ensure_capacity(results.size()));
for (auto& entry : results) {
TRY(strings.try_append(TRY(String::from_byte_string(entry))));
}
return resolve_slices(shell, move(strings), m_slices);
}
SimpleVariableValue::~SimpleVariableValue()
{
}
ErrorOr<String> SimpleVariableValue::resolve_as_string(RefPtr<Shell> shell)
{
if (!shell)
return resolve_slices(shell, String {}, m_slices);
if (auto value = TRY(resolve_without_cast(shell)); value != this)
return resolve_slices(shell, TRY(value->resolve_as_string(shell)), m_slices);
auto name = m_name.to_byte_string();
char const* env_value = getenv(name.characters());
if (!env_value)
env_value = "";
return resolve_slices(shell, TRY(String::from_utf8(StringView { env_value, strlen(env_value) })), m_slices);
}
ErrorOr<Vector<String>> SimpleVariableValue::resolve_as_list(RefPtr<Shell> shell)
{
if (!shell)
return resolve_slices(shell, Vector<String> {}, m_slices);
if (auto value = TRY(resolve_without_cast(shell)); value != this)
return value->resolve_as_list(shell);
auto name = m_name.to_byte_string();
char* env_value = getenv(name.characters());
if (env_value == nullptr)
return { resolve_slices(shell, Vector { String {} }, m_slices) };
return Vector<String> { TRY(resolve_slices(shell, TRY(String::from_utf8(StringView { env_value, strlen(env_value) })), m_slices)) };
}
ErrorOr<NonnullRefPtr<Value>> SimpleVariableValue::resolve_without_cast(RefPtr<Shell> shell)
{
VERIFY(shell);
if (auto value = TRY(shell->look_up_local_variable(m_name))) {
auto result = value.release_nonnull();
// If a slice is applied, add it.
if (!m_slices.is_empty())
result = TRY(result->with_slices(m_slices));
return const_cast<Value&>(*result);
}
return *this;
}
SpecialVariableValue::~SpecialVariableValue()
{
}
ErrorOr<String> SpecialVariableValue::resolve_as_string(RefPtr<Shell> shell)
{
if (!shell)
return String {};
auto result = TRY(resolve_as_list(shell));
if (result.size() == 1)
return result[0];
if (result.is_empty())
return String {};
return Value::resolve_as_string(shell);
}
ErrorOr<Vector<String>> SpecialVariableValue::resolve_as_list(RefPtr<Shell> shell)
{
if (!shell)
return Vector<String> {};
switch (m_name) {
case '?':
return { resolve_slices(shell, Vector { TRY(String::number(shell->last_return_code.value_or(0))) }, m_slices) };
case '$':
return { resolve_slices(shell, Vector { TRY(String::number(getpid())) }, m_slices) };
case '*':
if (auto argv = TRY(shell->look_up_local_variable("ARGV"sv)))
return resolve_slices(shell, TRY(const_cast<Value&>(*argv).resolve_as_list(shell)), m_slices);
return resolve_slices(shell, Vector<String> {}, m_slices);
case '#':
if (auto argv = TRY(shell->look_up_local_variable("ARGV"sv))) {
if (argv->is_list()) {
auto list_argv = static_cast<AST::ListValue const*>(argv.ptr());
return { resolve_slices(shell, Vector { TRY(String::number(list_argv->values().size())) }, m_slices) };
}
return { resolve_slices(shell, Vector { "1"_string }, m_slices) };
}
return { resolve_slices(shell, Vector { "0"_string }, m_slices) };
default:
return { resolve_slices(shell, Vector { String {} }, m_slices) };
}
}
ErrorOr<NonnullRefPtr<Value>> SpecialVariableValue::resolve_without_cast(RefPtr<Shell> shell)
{
if (!shell)
return *this;
return try_make_ref_counted<ListValue>(TRY(resolve_as_list(shell)));
}
TildeValue::~TildeValue()
{
}
ErrorOr<String> TildeValue::resolve_as_string(RefPtr<Shell> shell)
{
return TRY(resolve_as_list(shell)).first();
}
ErrorOr<Vector<String>> TildeValue::resolve_as_list(RefPtr<Shell> shell)
{
StringBuilder builder;
builder.append('~');
builder.append(m_username);
if (!shell)
return { resolve_slices(shell, Vector { TRY(builder.to_string()) }, m_slices) };
return { resolve_slices(shell, Vector { TRY(String::from_byte_string(shell->expand_tilde(builder.to_byte_string()))) }, m_slices) };
}
ErrorOr<NonnullRefPtr<Rewiring>> CloseRedirection::apply() const
{
return adopt_nonnull_ref_or_enomem(new (nothrow) Rewiring(fd, fd, Rewiring::Close::ImmediatelyCloseNew));
}
CloseRedirection::~CloseRedirection()
{
}
ErrorOr<NonnullRefPtr<Rewiring>> PathRedirection::apply() const
{
auto check_fd_and_return = [my_fd = this->fd](int fd, String const& path) -> ErrorOr<NonnullRefPtr<Rewiring>> {
if (fd < 0) {
auto error = Error::from_errno(errno);
dbgln("open() failed for '{}' with {}", path, error);
return error;
}
return adopt_nonnull_ref_or_enomem(new (nothrow) Rewiring(fd, my_fd, Rewiring::Close::Old));
};
auto path_string = path.to_byte_string();
switch (direction) {
case AST::PathRedirection::WriteAppend:
return check_fd_and_return(open(path_string.characters(), O_WRONLY | O_CREAT | O_APPEND, 0666), path);
case AST::PathRedirection::Write:
return check_fd_and_return(open(path_string.characters(), O_WRONLY | O_CREAT | O_TRUNC, 0666), path);
case AST::PathRedirection::Read:
return check_fd_and_return(open(path_string.characters(), O_RDONLY), path);
case AST::PathRedirection::ReadWrite:
return check_fd_and_return(open(path_string.characters(), O_RDWR | O_CREAT, 0666), path);
}
VERIFY_NOT_REACHED();
}
PathRedirection::~PathRedirection()
{
}
FdRedirection::~FdRedirection()
{
}
Redirection::~Redirection()
{
}
}
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