ladybird/Userland/Shell/AST.cpp
Edward Banner 791b0eb709 Shell: Use reverse iterators for history events
Replaces the custom find_reverse() function used for searching backwards
through string-based history events with reverse iterators + find_if()
2024-01-23 01:31:25 +03:30

3981 lines
129 KiB
C++

/*
* 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 <AK/URL.h>
#include <LibCore/EventLoop.h>
#include <LibFileSystem/FileSystem.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()
{
}
}