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serenity/Userland/Libraries/LibLine/Editor.cpp

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/*
* Copyright (c) 2018-2020, Andreas Kling <kling@serenityos.org>
* Copyright (c) 2021, the SerenityOS developers.
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#include "Editor.h"
#include <AK/CharacterTypes.h>
#include <AK/Debug.h>
#include <AK/GenericLexer.h>
#include <AK/JsonObject.h>
#include <AK/MemoryStream.h>
#include <AK/RedBlackTree.h>
#include <AK/ScopeGuard.h>
#include <AK/ScopedValueRollback.h>
#include <AK/StringBuilder.h>
#include <AK/Utf32View.h>
#include <AK/Utf8View.h>
#include <LibCore/ConfigFile.h>
#include <LibCore/Event.h>
#include <LibCore/EventLoop.h>
#include <LibCore/Notifier.h>
#include <LibUnicode/Segmentation.h>
#include <errno.h>
#include <fcntl.h>
#include <signal.h>
#include <stdio.h>
#include <sys/ioctl.h>
#include <sys/select.h>
#include <sys/time.h>
#include <unistd.h>
namespace {
constexpr u32 ctrl(char c) { return c & 0x3f; }
}
namespace Line {
Configuration Configuration::from_config(StringView libname)
{
Configuration configuration;
auto config_file = Core::ConfigFile::open_for_lib(libname).release_value_but_fixme_should_propagate_errors();
// Read behavior options.
auto refresh = config_file->read_entry("behavior", "refresh", "lazy");
auto operation = config_file->read_entry("behavior", "operation_mode");
auto bracketed_paste = config_file->read_bool_entry("behavior", "bracketed_paste", true);
auto default_text_editor = config_file->read_entry("behavior", "default_text_editor");
Configuration::Flags flags { Configuration::Flags::None };
if (bracketed_paste)
flags = static_cast<Flags>(flags | Configuration::Flags::BracketedPaste);
configuration.set(flags);
if (refresh.equals_ignoring_ascii_case("lazy"sv))
configuration.set(Configuration::Lazy);
else if (refresh.equals_ignoring_ascii_case("eager"sv))
configuration.set(Configuration::Eager);
if (operation.equals_ignoring_ascii_case("full"sv))
configuration.set(Configuration::OperationMode::Full);
else if (operation.equals_ignoring_ascii_case("noescapesequences"sv))
configuration.set(Configuration::OperationMode::NoEscapeSequences);
else if (operation.equals_ignoring_ascii_case("noninteractive"sv))
configuration.set(Configuration::OperationMode::NonInteractive);
else
configuration.set(Configuration::OperationMode::Unset);
if (!default_text_editor.is_empty())
configuration.set(DefaultTextEditor { move(default_text_editor) });
else
configuration.set(DefaultTextEditor { "/bin/TextEditor" });
// Read keybinds.
for (auto& binding_key : config_file->keys("keybinds")) {
GenericLexer key_lexer(binding_key);
auto has_ctrl = false;
auto alt = false;
auto escape = false;
Vector<Key> keys;
while (!key_lexer.is_eof()) {
unsigned key;
if (escape) {
key = key_lexer.consume_escaped_character();
escape = false;
} else {
if (key_lexer.next_is("alt+")) {
alt = key_lexer.consume_specific("alt+"sv);
continue;
}
if (key_lexer.next_is("^[")) {
alt = key_lexer.consume_specific("^["sv);
continue;
}
if (key_lexer.next_is("^")) {
has_ctrl = key_lexer.consume_specific("^"sv);
continue;
}
if (key_lexer.next_is("ctrl+")) {
has_ctrl = key_lexer.consume_specific("ctrl+"sv);
continue;
}
if (key_lexer.next_is("\\")) {
escape = true;
continue;
}
// FIXME: Support utf?
key = key_lexer.consume();
}
if (has_ctrl)
key = ctrl(key);
keys.append(Key { key, alt ? Key::Alt : Key::None });
alt = false;
has_ctrl = false;
}
GenericLexer value_lexer { config_file->read_entry("keybinds", binding_key) };
StringBuilder value_builder;
while (!value_lexer.is_eof())
value_builder.append(value_lexer.consume_escaped_character());
auto value = value_builder.string_view();
if (value.starts_with("internal:"sv)) {
configuration.set(KeyBinding {
keys,
KeyBinding::Kind::InternalFunction,
value.substring_view(9, value.length() - 9) });
} else {
configuration.set(KeyBinding {
keys,
KeyBinding::Kind::Insertion,
value });
}
}
return configuration;
}
void Editor::set_default_keybinds()
{
register_key_input_callback(ctrl('N'), EDITOR_INTERNAL_FUNCTION(search_forwards));
register_key_input_callback(ctrl('P'), EDITOR_INTERNAL_FUNCTION(search_backwards));
register_key_input_callback(ctrl('A'), EDITOR_INTERNAL_FUNCTION(go_home));
register_key_input_callback(ctrl('B'), EDITOR_INTERNAL_FUNCTION(cursor_left_character));
register_key_input_callback(ctrl('D'), EDITOR_INTERNAL_FUNCTION(erase_character_forwards));
register_key_input_callback(ctrl('E'), EDITOR_INTERNAL_FUNCTION(go_end));
register_key_input_callback(ctrl('F'), EDITOR_INTERNAL_FUNCTION(cursor_right_character));
// ^H: ctrl('H') == '\b'
register_key_input_callback(ctrl('H'), EDITOR_INTERNAL_FUNCTION(erase_character_backwards));
// DEL - Some terminals send this instead of ^H.
register_key_input_callback((char)127, EDITOR_INTERNAL_FUNCTION(erase_character_backwards));
register_key_input_callback(ctrl('K'), EDITOR_INTERNAL_FUNCTION(erase_to_end));
register_key_input_callback(ctrl('L'), EDITOR_INTERNAL_FUNCTION(clear_screen));
register_key_input_callback(ctrl('R'), EDITOR_INTERNAL_FUNCTION(enter_search));
register_key_input_callback(ctrl(']'), EDITOR_INTERNAL_FUNCTION(search_character_forwards));
register_key_input_callback(Key { ctrl(']'), Key::Alt }, EDITOR_INTERNAL_FUNCTION(search_character_backwards));
register_key_input_callback(ctrl('T'), EDITOR_INTERNAL_FUNCTION(transpose_characters));
register_key_input_callback('\n', EDITOR_INTERNAL_FUNCTION(finish));
// ^X^E: Edit in external editor
register_key_input_callback(Vector<Key> { ctrl('X'), ctrl('E') }, EDITOR_INTERNAL_FUNCTION(edit_in_external_editor));
// ^[.: alt-.: insert last arg of previous command (similar to `!$`)
register_key_input_callback(Key { '.', Key::Alt }, EDITOR_INTERNAL_FUNCTION(insert_last_words));
register_key_input_callback(ctrl('Y'), EDITOR_INTERNAL_FUNCTION(insert_last_erased));
register_key_input_callback(Key { 'b', Key::Alt }, EDITOR_INTERNAL_FUNCTION(cursor_left_word));
register_key_input_callback(Key { 'f', Key::Alt }, EDITOR_INTERNAL_FUNCTION(cursor_right_word));
register_key_input_callback(Key { ctrl('B'), Key::Alt }, EDITOR_INTERNAL_FUNCTION(cursor_left_nonspace_word));
register_key_input_callback(Key { ctrl('F'), Key::Alt }, EDITOR_INTERNAL_FUNCTION(cursor_right_nonspace_word));
// ^[^H: alt-backspace: backward delete word
register_key_input_callback(Key { '\b', Key::Alt }, EDITOR_INTERNAL_FUNCTION(erase_alnum_word_backwards));
register_key_input_callback(Key { 'd', Key::Alt }, EDITOR_INTERNAL_FUNCTION(erase_alnum_word_forwards));
register_key_input_callback(Key { '\\', Key::Alt }, EDITOR_INTERNAL_FUNCTION(erase_spaces));
register_key_input_callback(Key { 'c', Key::Alt }, EDITOR_INTERNAL_FUNCTION(capitalize_word));
register_key_input_callback(Key { 'l', Key::Alt }, EDITOR_INTERNAL_FUNCTION(lowercase_word));
register_key_input_callback(Key { 'u', Key::Alt }, EDITOR_INTERNAL_FUNCTION(uppercase_word));
register_key_input_callback(Key { 't', Key::Alt }, EDITOR_INTERNAL_FUNCTION(transpose_words));
// Register these last to all the user to override the previous key bindings
// Normally ^W. `stty werase \^n` can change it to ^N (or something else).
register_key_input_callback(m_termios.c_cc[VWERASE], EDITOR_INTERNAL_FUNCTION(erase_word_backwards));
// Normally ^U. `stty kill \^n` can change it to ^N (or something else).
register_key_input_callback(m_termios.c_cc[VKILL], EDITOR_INTERNAL_FUNCTION(kill_line));
register_key_input_callback(m_termios.c_cc[VERASE], EDITOR_INTERNAL_FUNCTION(erase_character_backwards));
}
Editor::Editor(Configuration configuration)
: m_configuration(move(configuration))
{
m_always_refresh = m_configuration.refresh_behavior == Configuration::RefreshBehavior::Eager;
m_pending_chars = {};
get_terminal_size();
m_suggestion_display = make<XtermSuggestionDisplay>(m_num_lines, m_num_columns);
}
Editor::~Editor()
{
if (m_initialized)
restore();
}
void Editor::ensure_free_lines_from_origin(size_t count)
{
if (count > m_num_lines) {
// FIXME: Implement paging
}
if (m_origin_row + count <= m_num_lines)
return;
auto diff = m_origin_row + count - m_num_lines - 1;
out(stderr, "\x1b[{}S", diff);
fflush(stderr);
m_origin_row -= diff;
m_refresh_needed = false;
m_chars_touched_in_the_middle = 0;
}
void Editor::get_terminal_size()
{
struct winsize ws;
ioctl(STDERR_FILENO, TIOCGWINSZ, &ws);
if (ws.ws_col == 0 || ws.ws_row == 0) {
// LLDB uses ttys which "work" and then gives us a zero sized
// terminal which is far from useful
if (int fd = open("/dev/tty", O_RDONLY); fd != -1) {
ioctl(fd, TIOCGWINSZ, &ws);
close(fd);
}
}
m_num_columns = ws.ws_col;
m_num_lines = ws.ws_row;
}
void Editor::add_to_history(ByteString const& line)
{
if (line.is_empty())
return;
ByteString histcontrol = getenv("HISTCONTROL");
auto ignoredups = histcontrol == "ignoredups" || histcontrol == "ignoreboth";
auto ignorespace = histcontrol == "ignorespace" || histcontrol == "ignoreboth";
if (ignoredups && !m_history.is_empty() && line == m_history.last().entry)
return;
if (ignorespace && line.starts_with(' '))
return;
if ((m_history.size() + 1) > m_history_capacity)
m_history.take_first();
struct timeval tv;
gettimeofday(&tv, nullptr);
m_history.append({ line, tv.tv_sec });
m_history_dirty = true;
}
ErrorOr<Vector<Editor::HistoryEntry>> Editor::try_load_history(StringView path)
{
auto history_file_or_error = Core::File::open(path, Core::File::OpenMode::Read);
// We ignore "No such file or directory" errors, as that is just equivalent to an empty history.
if (history_file_or_error.is_error() && history_file_or_error.error().is_errno() && history_file_or_error.error().code() == ENOENT)
return Vector<Editor::HistoryEntry> {};
auto history_file = history_file_or_error.release_value();
auto data = TRY(history_file->read_until_eof());
auto hist = StringView { data };
Vector<HistoryEntry> history;
for (auto& str : hist.split_view("\n\n"sv)) {
auto it = str.find("::"sv).value_or(0);
auto time = str.substring_view(0, it).to_number<time_t>().value_or(0);
auto string = str.substring_view(it == 0 ? it : it + 2);
history.append({ string, time });
}
return history;
}
bool Editor::load_history(ByteString const& path)
{
auto history_or_error = try_load_history(path);
if (history_or_error.is_error())
return false;
auto maybe_error = m_history.try_extend(history_or_error.release_value());
auto okay = !maybe_error.is_error();
return okay;
}
template<typename It0, typename It1, typename OutputT, typename LessThan>
static void merge(It0&& begin0, It0 const& end0, It1&& begin1, It1 const& end1, OutputT& output, LessThan less_than)
{
for (;;) {
if (begin0 == end0 && begin1 == end1)
return;
if (begin0 == end0) {
auto&& right = *begin1;
if (output.last().entry != right.entry)
output.append(right);
++begin1;
continue;
}
auto&& left = *begin0;
if (left.entry.is_whitespace()) {
++begin0;
continue;
}
if (begin1 == end1) {
if (output.last().entry != left.entry)
output.append(left);
++begin0;
continue;
}
auto&& right = *begin1;
if (less_than(left, right)) {
if (output.last().entry != left.entry)
output.append(left);
++begin0;
} else {
if (output.last().entry != right.entry)
output.append(right);
++begin1;
if (right.entry == left.entry)
++begin0;
}
}
}
bool Editor::save_history(ByteString const& path)
{
// Note: Use a dummy entry to simplify merging.
Vector<HistoryEntry> final_history { { "", 0 } };
{
auto history_or_error = try_load_history(path);
if (history_or_error.is_error())
return false;
Vector<HistoryEntry> old_history = history_or_error.release_value();
merge(
old_history.begin(), old_history.end(),
m_history.begin(), m_history.end(),
final_history,
[](HistoryEntry const& left, HistoryEntry const& right) { return left.timestamp < right.timestamp; });
}
auto file_or_error = Core::File::open(path, Core::File::OpenMode::Write, 0600);
if (file_or_error.is_error())
return false;
auto file = file_or_error.release_value();
// Skip the dummy entry:
for (auto iter = final_history.begin() + 1; iter != final_history.end(); ++iter) {
auto const& entry = *iter;
auto buffer = ByteString::formatted("{}::{}\n\n", entry.timestamp, entry.entry);
auto maybe_error = file->write_until_depleted(buffer.bytes());
if (maybe_error.is_error())
return false;
}
m_history_dirty = false;
return true;
}
void Editor::clear_line()
{
for (size_t i = 0; i < m_cursor; ++i)
fputc(0x8, stderr);
fputs("\033[K", stderr);
fflush(stderr);
m_chars_touched_in_the_middle = buffer().size();
m_buffer.clear();
m_cursor = 0;
m_inline_search_cursor = m_cursor;
}
void Editor::insert(Utf32View const& string)
{
for (size_t i = 0; i < string.length(); ++i)
insert(string.code_points()[i]);
}
void Editor::insert(ByteString const& string)
{
for (auto ch : Utf8View { string })
insert(ch);
}
void Editor::insert(StringView string_view)
{
for (auto ch : Utf8View { string_view })
insert(ch);
}
void Editor::insert(u32 const cp)
{
StringBuilder builder;
builder.append(Utf32View(&cp, 1));
auto str = builder.to_byte_string();
if (m_pending_chars.try_append(str.characters(), str.length()).is_error())
return;
readjust_anchored_styles(m_cursor, ModificationKind::Insertion);
if (m_cursor == m_buffer.size()) {
m_buffer.append(cp);
m_cursor = m_buffer.size();
m_inline_search_cursor = m_cursor;
return;
}
m_buffer.insert(m_cursor, cp);
++m_chars_touched_in_the_middle;
++m_cursor;
m_inline_search_cursor = m_cursor;
}
void Editor::register_key_input_callback(KeyBinding const& binding)
{
if (binding.kind == KeyBinding::Kind::InternalFunction) {
auto internal_function = find_internal_function(binding.binding);
if (!internal_function) {
dbgln("LibLine: Unknown internal function '{}'", binding.binding);
return;
}
return register_key_input_callback(binding.keys, move(internal_function));
}
return register_key_input_callback(binding.keys, [binding = ByteString(binding.binding)](auto& editor) {
editor.insert(binding);
return false;
});
}
static size_t code_point_length_in_utf8(u32 code_point)
{
if (code_point <= 0x7f)
return 1;
if (code_point <= 0x07ff)
return 2;
if (code_point <= 0xffff)
return 3;
if (code_point <= 0x10ffff)
return 4;
return 3;
}
// buffer [ 0 1 2 3 . . . A . . . B . . . M . . . N ]
// ^ ^ ^ ^
// | | | +- end of buffer
// | | +- scan offset = M
// | +- range end = M - B
// +- range start = M - A
// This method converts a byte range defined by [start_byte_offset, end_byte_offset] to a code_point range [M - A, M - B] as shown in the diagram above.
// If `reverse' is true, A and B are before M, if not, A and B are after M.
Editor::CodepointRange Editor::byte_offset_range_to_code_point_offset_range(size_t start_byte_offset, size_t end_byte_offset, size_t scan_code_point_offset, bool reverse) const
{
size_t byte_offset = 0;
size_t code_point_offset = scan_code_point_offset + (reverse ? 1 : 0);
CodepointRange range;
for (;;) {
if (!reverse) {
if (code_point_offset >= m_buffer.size())
break;
} else {
if (code_point_offset == 0)
break;
}
if (byte_offset > end_byte_offset)
break;
if (byte_offset < start_byte_offset)
++range.start;
if (byte_offset < end_byte_offset)
++range.end;
byte_offset += code_point_length_in_utf8(m_buffer[reverse ? --code_point_offset : code_point_offset++]);
}
return range;
}
void Editor::stylize(Span const& span, Style const& style)
{
if (!span.is_empty())
return;
if (style.is_empty())
return;
auto start = span.beginning();
auto end = span.end();
if (span.mode() == Span::ByteOriented) {
auto offsets = byte_offset_range_to_code_point_offset_range(start, end, 0);
start = offsets.start;
end = offsets.end;
}
if (auto maybe_mask = style.mask(); maybe_mask.has_value()) {
auto it = m_current_masks.find_smallest_not_below_iterator(span.beginning());
Optional<Style::Mask> last_encountered_entry;
if (!it.is_end()) {
// Delete all overlapping old masks.
while (true) {
auto next_it = m_current_masks.find_largest_not_above_iterator(span.end());
if (next_it.is_end())
break;
if (it->has_value())
last_encountered_entry = *it;
m_current_masks.remove(next_it.key());
}
}
m_current_masks.insert(span.beginning(), move(maybe_mask));
m_current_masks.insert(span.end(), {});
if (last_encountered_entry.has_value())
m_current_masks.insert(span.end() + 1, move(last_encountered_entry));
style.unset_mask();
}
auto& spans_starting = style.is_anchored() ? m_current_spans.m_anchored_spans_starting : m_current_spans.m_spans_starting;
auto& spans_ending = style.is_anchored() ? m_current_spans.m_anchored_spans_ending : m_current_spans.m_spans_ending;
auto& starting_map = spans_starting.ensure(start);
if (!starting_map.contains(end))
m_refresh_needed = true;
starting_map.set(end, style);
auto& ending_map = spans_ending.ensure(end);
if (!ending_map.contains(start))
m_refresh_needed = true;
ending_map.set(start, style);
}
void Editor::transform_suggestion_offsets(size_t& invariant_offset, size_t& static_offset, Span::Mode offset_mode) const
{
auto internal_static_offset = static_offset;
auto internal_invariant_offset = invariant_offset;
if (offset_mode == Span::Mode::ByteOriented) {
// FIXME: We're assuming that invariant_offset points to the end of the available data
// this is not necessarily true, but is true in most cases.
auto offsets = byte_offset_range_to_code_point_offset_range(internal_static_offset, internal_invariant_offset + internal_static_offset, m_cursor - 1, true);
internal_static_offset = offsets.start;
internal_invariant_offset = offsets.end - offsets.start;
}
invariant_offset = internal_invariant_offset;
static_offset = internal_static_offset;
}
void Editor::initialize()
{
if (m_initialized)
return;
struct termios termios;
tcgetattr(0, &termios);
m_default_termios = termios; // grab a copy to restore
get_terminal_size();
if (m_configuration.operation_mode == Configuration::Unset) {
auto istty = isatty(STDIN_FILENO) && isatty(STDERR_FILENO);
if (!istty) {
m_configuration.set(Configuration::NonInteractive);
} else {
auto* term = getenv("TERM");
if ((term != NULL) && StringView { term, strlen(term) }.starts_with("xterm"sv))
m_configuration.set(Configuration::Full);
else
m_configuration.set(Configuration::NoEscapeSequences);
}
}
// Because we use our own line discipline which includes echoing,
// we disable ICANON and ECHO.
if (m_configuration.operation_mode == Configuration::Full) {
termios.c_lflag &= ~(ECHO | ICANON);
tcsetattr(0, TCSANOW, &termios);
}
m_termios = termios;
set_default_keybinds();
for (auto& keybind : m_configuration.keybindings)
register_key_input_callback(keybind);
if (m_configuration.m_signal_mode == Configuration::WithSignalHandlers) {
m_signal_handlers.append(Core::EventLoop::register_signal(SIGINT, [this](int) {
Core::EventLoop::current().deferred_invoke([this] { interrupted().release_value_but_fixme_should_propagate_errors(); });
}));
m_signal_handlers.append(Core::EventLoop::register_signal(SIGWINCH, [this](int) {
Core::EventLoop::current().deferred_invoke([this] { resized().release_value_but_fixme_should_propagate_errors(); });
}));
}
m_initialized = true;
}
void Editor::refetch_default_termios()
{
struct termios termios;
tcgetattr(0, &termios);
m_default_termios = termios;
if (m_configuration.operation_mode == Configuration::Full)
termios.c_lflag &= ~(ECHO | ICANON);
m_termios = termios;
}
ErrorOr<void> Editor::interrupted()
{
if (m_is_searching)
return m_search_editor->interrupted();
if (!m_is_editing)
return {};
m_was_interrupted = true;
handle_interrupt_event();
if (!m_finish || !m_previous_interrupt_was_handled_as_interrupt)
return {};
m_finish = false;
{
auto stderr_stream = TRY(Core::File::standard_error());
TRY(reposition_cursor(*stderr_stream, true));
if (TRY(m_suggestion_display->cleanup())) {
m_times_tab_pressed = 0;
TRY(reposition_cursor(*stderr_stream, true));
}
TRY(stderr_stream->write_until_depleted("\r"sv.bytes()));
}
m_buffer.clear();
m_chars_touched_in_the_middle = buffer().size();
m_is_editing = false;
restore();
m_notifier->set_enabled(false);
m_notifier = nullptr;
Core::EventLoop::current().quit(Retry);
return {};
}
ErrorOr<void> Editor::resized()
{
m_was_resized = true;
m_previous_num_columns = m_num_columns;
auto old_origin_row = m_origin_row;
auto old_origin_column = m_origin_column;
get_terminal_size();
if (!m_has_origin_reset_scheduled) {
// Reset the origin, but make sure it doesn't blow up if we can't read it
if (set_origin(false)) {
// The origin we have right now actually points to where the cursor should be (in the middle of the buffer somewhere)
// Find the "true" origin.
auto current_buffer_metrics = actual_rendered_string_metrics(buffer_view(), m_current_masks);
auto lines = m_cached_prompt_metrics.lines_with_addition(current_buffer_metrics, m_num_columns);
auto offset = m_cached_prompt_metrics.offset_with_addition(current_buffer_metrics, m_num_columns);
if (lines > m_origin_row)
m_origin_row = 1;
else
m_origin_row -= lines - 1; // the prompt and the origin share a line.
if (offset > m_origin_column)
m_origin_column = 1;
else
m_origin_column -= offset;
set_origin(m_origin_row, m_origin_column);
TRY(handle_resize_event(false));
if (old_origin_column != m_origin_column || old_origin_row != m_origin_row) {
m_expected_origin_changed = true;
deferred_invoke([this] {
(void)refresh_display();
});
}
} else {
deferred_invoke([this] { handle_resize_event(true).release_value_but_fixme_should_propagate_errors(); });
m_has_origin_reset_scheduled = true;
}
}
return {};
}
ErrorOr<void> Editor::handle_resize_event(bool reset_origin)
{
m_has_origin_reset_scheduled = false;
if (reset_origin && !set_origin(false)) {
m_has_origin_reset_scheduled = true;
deferred_invoke([this] { handle_resize_event(true).release_value_but_fixme_should_propagate_errors(); });
return {};
}
set_origin(m_origin_row, 1);
auto stderr_stream = TRY(Core::File::standard_error());
TRY(reposition_cursor(*stderr_stream, true));
TRY(m_suggestion_display->redisplay(m_suggestion_manager, m_num_lines, m_num_columns));
m_origin_row = m_suggestion_display->origin_row();
TRY(reposition_cursor(*stderr_stream));
if (m_is_searching)
TRY(m_search_editor->resized());
return {};
}
ErrorOr<void> Editor::really_quit_event_loop()
{
m_finish = false;
{
auto stderr_stream = TRY(Core::File::standard_error());
TRY(reposition_cursor(*stderr_stream, true));
TRY(stderr_stream->write_until_depleted("\n"sv.bytes()));
}
auto string = line();
m_buffer.clear();
m_chars_touched_in_the_middle = buffer().size();
m_is_editing = false;
if (m_initialized)
restore();
m_returned_line = string;
m_notifier->set_enabled(false);
m_notifier = nullptr;
Core::EventLoop::current().quit(Exit);
return {};
}
auto Editor::get_line(ByteString const& prompt) -> Result<ByteString, Editor::Error>
{
initialize();
m_is_editing = true;
if (m_configuration.operation_mode == Configuration::NoEscapeSequences || m_configuration.operation_mode == Configuration::NonInteractive) {
// Do not use escape sequences, instead, use LibC's getline.
size_t size = 0;
char* line = nullptr;
// Show the prompt only on interactive mode (NoEscapeSequences in this case).
if (m_configuration.operation_mode != Configuration::NonInteractive)
fputs(prompt.characters(), stderr);
auto line_length = getline(&line, &size, stdin);
// getline() returns -1 and sets errno=0 on EOF.
if (line_length == -1) {
if (line)
free(line);
if (errno == 0)
return Error::Eof;
return Error::ReadFailure;
}
restore();
if (line) {
ByteString result { line, (size_t)line_length, Chomp };
free(line);
return result;
}
return Error::ReadFailure;
}
auto old_cols = m_num_columns;
auto old_lines = m_num_lines;
get_terminal_size();
if (m_configuration.enable_bracketed_paste)
fprintf(stderr, "\x1b[?2004h");
if (m_num_columns != old_cols || m_num_lines != old_lines)
m_refresh_needed = true;
set_prompt(prompt);
reset();
strip_styles(true);
{
auto stderr_stream = Core::File::standard_error().release_value_but_fixme_should_propagate_errors();
auto prompt_lines = max(current_prompt_metrics().line_metrics.size(), 1ul) - 1;
for (size_t i = 0; i < prompt_lines; ++i)
stderr_stream->write_until_depleted("\n"sv.bytes()).release_value_but_fixme_should_propagate_errors();
VT::move_relative(-static_cast<int>(prompt_lines), 0, *stderr_stream).release_value_but_fixme_should_propagate_errors();
}
set_origin();
m_history_cursor = m_history.size();
if (auto refresh_result = refresh_display(); refresh_result.is_error())
m_input_error = Error::ReadFailure;
Core::EventLoop loop;
m_notifier = Core::Notifier::construct(STDIN_FILENO, Core::Notifier::Type::Read);
if (m_input_error.has_value())
loop.quit(Exit);
m_notifier->on_activation = [&] {
if (try_update_once().is_error())
loop.quit(Exit);
};
if (!m_incomplete_data.is_empty()) {
deferred_invoke([&] {
if (try_update_once().is_error())
loop.quit(Exit);
});
}
if (loop.exec() == Retry)
return get_line(prompt);
return m_input_error.has_value() ? Result<ByteString, Editor::Error> { m_input_error.value() } : Result<ByteString, Editor::Error> { m_returned_line };
}
ErrorOr<void> Editor::try_update_once()
{
if (m_was_interrupted) {
handle_interrupt_event();
}
TRY(handle_read_event());
if (m_always_refresh)
m_refresh_needed = true;
TRY(refresh_display());
if (m_finish)
TRY(really_quit_event_loop());
return {};
}
void Editor::handle_interrupt_event()
{
m_was_interrupted = false;
m_previous_interrupt_was_handled_as_interrupt = false;
m_callback_machine.interrupted(*this);
if (!m_callback_machine.should_process_last_pressed_key())
return;
m_previous_interrupt_was_handled_as_interrupt = true;
fprintf(stderr, "^C\n");
fflush(stderr);
if (on_interrupt_handled)
on_interrupt_handled();
m_buffer.clear();
m_chars_touched_in_the_middle = buffer().size();
m_cursor = 0;
set_origin(false);
finish();
}
ErrorOr<void> Editor::handle_read_event()
{
if (m_prohibit_input_processing) {
m_have_unprocessed_read_event = true;
return {};
}
auto prohibit_scope = prohibit_input();
char keybuf[1024];
ssize_t nread = 0;
if (!m_incomplete_data.size())
nread = read(0, keybuf, sizeof(keybuf));
if (nread < 0) {
if (errno == EINTR) {
if (!m_was_interrupted) {
if (m_was_resized)
return {};
finish();
return {};
}
handle_interrupt_event();
return {};
}
ScopedValueRollback errno_restorer(errno);
perror("read failed");
m_input_error = Error::ReadFailure;
finish();
return {};
}
m_incomplete_data.append(keybuf, nread);
auto available_bytes = m_incomplete_data.size();
if (available_bytes == 0) {
m_input_error = Error::Empty;
finish();
return {};
}
auto reverse_tab = false;
// Discard starting bytes until they make sense as utf-8.
size_t valid_bytes = 0;
while (available_bytes > 0) {
Utf8View { StringView { m_incomplete_data.data(), available_bytes } }.validate(valid_bytes);
if (valid_bytes != 0)
break;
m_incomplete_data.take_first();
--available_bytes;
}
Utf8View input_view { StringView { m_incomplete_data.data(), valid_bytes } };
size_t consumed_code_points = 0;
static Vector<u8, 4> csi_parameter_bytes;
static Vector<u8> csi_intermediate_bytes;
Vector<unsigned, 4> csi_parameters;
u8 csi_final;
enum CSIMod {
Shift = 1,
Alt = 2,
Ctrl = 4,
};
for (auto code_point : input_view) {
if (m_finish)
break;
++consumed_code_points;
if (code_point == 0)
continue;
switch (m_state) {
case InputState::GotEscape:
switch (code_point) {
case '[':
m_state = InputState::CSIExpectParameter;
continue;
default: {
m_callback_machine.key_pressed(*this, { code_point, Key::Alt });
m_state = InputState::Free;
TRY(cleanup_suggestions());
continue;
}
}
case InputState::CSIExpectParameter:
if (code_point >= 0x30 && code_point <= 0x3f) { // '0123456789:;<=>?'
csi_parameter_bytes.append(code_point);
continue;
}
m_state = InputState::CSIExpectIntermediate;
[[fallthrough]];
case InputState::CSIExpectIntermediate:
if (code_point >= 0x20 && code_point <= 0x2f) { // ' !"#$%&\'()*+,-./'
csi_intermediate_bytes.append(code_point);
continue;
}
m_state = InputState::CSIExpectFinal;
[[fallthrough]];
case InputState::CSIExpectFinal: {
m_state = m_previous_free_state;
auto is_in_paste = m_state == InputState::Paste;
for (auto& parameter : ByteString::copy(csi_parameter_bytes).split(';')) {
if (auto value = parameter.to_number<unsigned>(); value.has_value())
csi_parameters.append(value.value());
else
csi_parameters.append(0);
}
unsigned param1 = 0, param2 = 0;
if (csi_parameters.size() >= 1)
param1 = csi_parameters[0];
if (csi_parameters.size() >= 2)
param2 = csi_parameters[1];
unsigned modifiers = param2 ? param2 - 1 : 0;
if (is_in_paste && code_point != '~' && param1 != 201) {
// The only valid escape to process in paste mode is the stop-paste sequence.
// so treat everything else as part of the pasted data.
insert('\x1b');
insert('[');
insert(StringView { csi_parameter_bytes.data(), csi_parameter_bytes.size() });
insert(StringView { csi_intermediate_bytes.data(), csi_intermediate_bytes.size() });
insert(code_point);
continue;
}
if (!(code_point >= 0x40 && code_point <= 0x7f)) {
dbgln("LibLine: Invalid CSI: {:02x} ({:c})", code_point, code_point);
continue;
}
csi_final = code_point;
csi_parameters.clear();
csi_parameter_bytes.clear();
csi_intermediate_bytes.clear();
if (csi_final == 'Z') {
// 'reverse tab'
reverse_tab = true;
break;
}
TRY(cleanup_suggestions());
switch (csi_final) {
case 'A': // ^[[A: arrow up
search_backwards();
continue;
case 'B': // ^[[B: arrow down
search_forwards();
continue;
case 'D': // ^[[D: arrow left
if (modifiers == CSIMod::Alt || modifiers == CSIMod::Ctrl)
cursor_left_word();
else
cursor_left_character();
continue;
case 'C': // ^[[C: arrow right
if (modifiers == CSIMod::Alt || modifiers == CSIMod::Ctrl)
cursor_right_word();
else
cursor_right_character();
continue;
case 'H': // ^[[H: home
go_home();
continue;
case 'F': // ^[[F: end
go_end();
continue;
case 127:
if (modifiers == CSIMod::Ctrl)
erase_alnum_word_backwards();
else
erase_character_backwards();
continue;
case '~':
if (param1 == 3) { // ^[[3~: delete
if (modifiers == CSIMod::Ctrl)
erase_alnum_word_forwards();
else
erase_character_forwards();
m_search_offset = 0;
continue;
}
if (m_configuration.enable_bracketed_paste) {
// ^[[200~: start bracketed paste
// ^[[201~: end bracketed paste
if (!is_in_paste && param1 == 200) {
m_state = InputState::Paste;
continue;
}
if (is_in_paste && param1 == 201) {
m_state = InputState::Free;
if (on_paste) {
on_paste(Utf32View { m_paste_buffer.data(), m_paste_buffer.size() }, *this);
m_paste_buffer.clear_with_capacity();
}
if (!m_paste_buffer.is_empty())
insert(Utf32View { m_paste_buffer.data(), m_paste_buffer.size() });
continue;
}
}
// ^[[5~: page up
// ^[[6~: page down
dbgln("LibLine: Unhandled '~': {}", param1);
continue;
default:
dbgln("LibLine: Unhandled final: {:02x} ({:c})", code_point, code_point);
continue;
}
VERIFY_NOT_REACHED();
}
case InputState::Verbatim:
m_state = InputState::Free;
// Verbatim mode will bypass all mechanisms and just insert the code point.
insert(code_point);
continue;
case InputState::Paste:
if (code_point == 27) {
m_previous_free_state = InputState::Paste;
m_state = InputState::GotEscape;
continue;
}
if (on_paste)
m_paste_buffer.append(code_point);
else
insert(code_point);
continue;
case InputState::Free:
m_previous_free_state = InputState::Free;
if (code_point == 27) {
m_callback_machine.key_pressed(*this, code_point);
// Note that this should also deal with explicitly registered keys
// that would otherwise be interpreted as escapes.
if (m_callback_machine.should_process_last_pressed_key())
m_state = InputState::GotEscape;
continue;
}
if (code_point == 22) { // ^v
m_callback_machine.key_pressed(*this, code_point);
if (m_callback_machine.should_process_last_pressed_key())
m_state = InputState::Verbatim;
continue;
}
break;
}
// There are no sequences past this point, so short of 'tab', we will want to cleanup the suggestions.
ArmedScopeGuard suggestion_cleanup { [this] { cleanup_suggestions().release_value_but_fixme_should_propagate_errors(); } };
// Normally ^D. `stty eof \^n` can change it to ^N (or something else), but Serenity doesn't have `stty` yet.
// Process this here since the keybinds might override its behavior.
// This only applies when the buffer is empty. at any other time, the behavior should be configurable.
if (code_point == m_termios.c_cc[VEOF] && m_buffer.size() == 0) {
finish_edit();
continue;
}
m_callback_machine.key_pressed(*this, code_point);
if (!m_callback_machine.should_process_last_pressed_key())
continue;
m_search_offset = 0; // reset search offset on any key
if (code_point == '\t' || reverse_tab) {
suggestion_cleanup.disarm();
if (!on_tab_complete)
continue;
// Reverse tab can count as regular tab here.
m_times_tab_pressed++;
int token_start = m_cursor;
// Ask for completions only on the first tab
// and scan for the largest common prefix to display,
// further tabs simply show the cached completions.
if (m_times_tab_pressed == 1) {
m_suggestion_manager.set_suggestions(on_tab_complete(*this));
m_suggestion_manager.set_start_index(0);
m_prompt_lines_at_suggestion_initiation = num_lines();
if (m_suggestion_manager.count() == 0) {
// There are no suggestions, beep.
fputc('\a', stderr);
fflush(stderr);
}
}
// Adjust already incremented / decremented index when switching tab direction.
if (reverse_tab && m_tab_direction != TabDirection::Backward) {
m_suggestion_manager.previous();
m_suggestion_manager.previous();
m_tab_direction = TabDirection::Backward;
}
if (!reverse_tab && m_tab_direction != TabDirection::Forward) {
m_suggestion_manager.next();
m_suggestion_manager.next();
m_tab_direction = TabDirection::Forward;
}
reverse_tab = false;
SuggestionManager::CompletionMode completion_mode;
switch (m_times_tab_pressed) {
case 1:
completion_mode = SuggestionManager::CompletePrefix;
break;
case 2:
completion_mode = SuggestionManager::ShowSuggestions;
break;
default:
completion_mode = SuggestionManager::CycleSuggestions;
break;
}
insert(Utf32View { m_remembered_suggestion_static_data.data(), m_remembered_suggestion_static_data.size() });
m_remembered_suggestion_static_data.clear_with_capacity();
auto completion_result = m_suggestion_manager.attempt_completion(completion_mode, token_start);
auto new_cursor = m_cursor;
new_cursor += completion_result.new_cursor_offset;
for (size_t i = completion_result.offset_region_to_remove.start; i < completion_result.offset_region_to_remove.end; ++i)
remove_at_index(new_cursor);
new_cursor -= completion_result.static_offset_from_cursor;
for (size_t i = 0; i < completion_result.static_offset_from_cursor; ++i) {
m_remembered_suggestion_static_data.append(m_buffer[new_cursor]);
remove_at_index(new_cursor);
}
m_cursor = new_cursor;
m_inline_search_cursor = new_cursor;
m_refresh_needed = true;
m_chars_touched_in_the_middle++;
for (auto& view : completion_result.insert)
insert(view.as_string());
auto stderr_stream = TRY(Core::File::standard_error());
TRY(reposition_cursor(*stderr_stream));
if (completion_result.style_to_apply.has_value()) {
// Apply the style of the last suggestion.
readjust_anchored_styles(m_suggestion_manager.current_suggestion().start_index, ModificationKind::ForcedOverlapRemoval);
stylize({ m_suggestion_manager.current_suggestion().start_index, m_cursor, Span::Mode::CodepointOriented }, completion_result.style_to_apply.value());
}
switch (completion_result.new_completion_mode) {
case SuggestionManager::DontComplete:
m_times_tab_pressed = 0;
m_remembered_suggestion_static_data.clear_with_capacity();
break;
case SuggestionManager::CompletePrefix:
break;
default:
++m_times_tab_pressed;
break;
}
if (m_times_tab_pressed > 1 && m_suggestion_manager.count() > 0) {
if (TRY(m_suggestion_display->cleanup()))
TRY(reposition_cursor(*stderr_stream));
m_suggestion_display->set_initial_prompt_lines(m_prompt_lines_at_suggestion_initiation);
TRY(m_suggestion_display->display(m_suggestion_manager));
m_origin_row = m_suggestion_display->origin_row();
}
if (m_times_tab_pressed > 2) {
if (m_tab_direction == TabDirection::Forward)
m_suggestion_manager.next();
else
m_suggestion_manager.previous();
}
if (m_suggestion_manager.count() < 2 && !completion_result.avoid_committing_to_single_suggestion) {
// We have none, or just one suggestion,
// we should just commit that and continue
// after it, as if it were auto-completed.
TRY(reposition_cursor(*stderr_stream, true));
TRY(cleanup_suggestions());
m_remembered_suggestion_static_data.clear_with_capacity();
}
continue;
}
// If we got here, manually cleanup the suggestions and then insert the new code point.
m_remembered_suggestion_static_data.clear_with_capacity();
suggestion_cleanup.disarm();
TRY(cleanup_suggestions());
insert(code_point);
}
if (consumed_code_points == valid_bytes) {
m_incomplete_data.clear();
} else {
auto bytes_to_drop = input_view.byte_offset_of(consumed_code_points + 1);
for (size_t i = 0; i < bytes_to_drop; ++i)
m_incomplete_data.take_first();
}
if (!m_incomplete_data.is_empty() && !m_finish)
deferred_invoke([&] { try_update_once().release_value_but_fixme_should_propagate_errors(); });
return {};
}
ErrorOr<void> Editor::cleanup_suggestions()
{
if (m_times_tab_pressed != 0) {
// Apply the style of the last suggestion.
readjust_anchored_styles(m_suggestion_manager.current_suggestion().start_index, ModificationKind::ForcedOverlapRemoval);
stylize({ m_suggestion_manager.current_suggestion().start_index, m_cursor, Span::Mode::CodepointOriented }, m_suggestion_manager.current_suggestion().style);
// We probably have some suggestions drawn,
// let's clean them up.
if (TRY(m_suggestion_display->cleanup())) {
auto stderr_stream = TRY(Core::File::standard_error());
TRY(reposition_cursor(*stderr_stream));
m_refresh_needed = true;
}
m_suggestion_manager.reset();
m_suggestion_display->finish();
}
m_times_tab_pressed = 0; // Safe to say if we get here, the user didn't press TAB
return {};
}
bool Editor::search(StringView phrase, bool allow_empty, bool from_beginning)
{
int last_matching_offset = -1;
bool found = false;
// Do not search for empty strings.
if (allow_empty || phrase.length() > 0) {
size_t search_offset = m_search_offset;
for (size_t i = m_history_cursor; i > 0; --i) {
auto& entry = m_history[i - 1];
auto contains = from_beginning ? entry.entry.starts_with(phrase) : entry.entry.contains(phrase);
if (contains) {
last_matching_offset = i - 1;
if (search_offset == 0) {
found = true;
break;
}
--search_offset;
}
}
if (!found) {
fputc('\a', stderr);
fflush(stderr);
}
}
if (found) {
// We plan to clear the buffer, so mark the entire thing touched.
m_chars_touched_in_the_middle = m_buffer.size();
m_buffer.clear();
m_cursor = 0;
insert(m_history[last_matching_offset].entry);
// Always needed, as we have cleared the buffer above.
m_refresh_needed = true;
}
return found;
}
void Editor::recalculate_origin()
{
// Changing the columns can affect our origin if
// the new size is smaller than our prompt, which would
// cause said prompt to take up more space, so we should
// compensate for that.
if (m_cached_prompt_metrics.max_line_length >= m_num_columns) {
auto added_lines = (m_cached_prompt_metrics.max_line_length + 1) / m_num_columns - 1;
m_origin_row += added_lines;
}
// We also need to recalculate our cursor position,
// but that will be calculated and applied at the next
// refresh cycle.
}
ErrorOr<void> Editor::cleanup()
{
auto current_buffer_metrics = actual_rendered_string_metrics(buffer_view(), m_current_masks);
auto new_lines = current_prompt_metrics().lines_with_addition(current_buffer_metrics, m_num_columns);
if (new_lines < m_shown_lines)
m_extra_forward_lines = max(m_shown_lines - new_lines, m_extra_forward_lines);
auto stderr_stream = TRY(Core::File::standard_error());
TRY(reposition_cursor(*stderr_stream, true));
auto current_line = num_lines() - 1;
TRY(VT::clear_lines(current_line, m_extra_forward_lines, *stderr_stream));
m_extra_forward_lines = 0;
TRY(reposition_cursor(*stderr_stream));
return {};
}
ErrorOr<void> Editor::refresh_display()
{
AllocatingMemoryStream output_stream;
ScopeGuard flush_stream {
[&] {
m_shown_lines = current_prompt_metrics().lines_with_addition(m_cached_buffer_metrics, m_num_columns);
if (output_stream.used_buffer_size() == 0)
return;
auto buffer = ByteBuffer::create_uninitialized(output_stream.used_buffer_size()).release_value_but_fixme_should_propagate_errors();
output_stream.read_until_filled(buffer).release_value_but_fixme_should_propagate_errors();
fwrite(buffer.data(), sizeof(char), buffer.size(), stderr);
}
};
auto has_cleaned_up = false;
// Someone changed the window size, figure it out
// and react to it, we might need to redraw.
if (m_was_resized) {
if (m_expected_origin_changed || m_previous_num_columns != m_num_columns) {
// We need to cleanup and redo everything.
m_expected_origin_changed = false;
m_cached_prompt_valid = false;
m_refresh_needed = true;
swap(m_previous_num_columns, m_num_columns);
recalculate_origin();
TRY(cleanup());
swap(m_previous_num_columns, m_num_columns);
has_cleaned_up = true;
}
m_was_resized = false;
}
// We might be at the last line, and have more than one line;
// Refreshing the display will cause the terminal to scroll,
// so note that fact and bring origin up, making sure to
// reserve the space for however many lines we move it up.
auto current_num_lines = num_lines();
if (m_origin_row + current_num_lines > m_num_lines) {
if (current_num_lines > m_num_lines) {
for (size_t i = 0; i < m_num_lines; ++i)
TRY(output_stream.write_until_depleted("\n"sv.bytes()));
m_origin_row = 0;
} else {
auto old_origin_row = m_origin_row;
m_origin_row = m_num_lines - current_num_lines + 1;
for (size_t i = 0; i < old_origin_row - m_origin_row; ++i)
TRY(output_stream.write_until_depleted("\n"sv.bytes()));
}
}
// Do not call hook on pure cursor movement.
if (m_cached_prompt_valid && !m_refresh_needed && m_pending_chars.size() == 0) {
// Probably just moving around.
TRY(reposition_cursor(output_stream));
m_cached_buffer_metrics = actual_rendered_string_metrics(buffer_view(), m_current_masks);
m_drawn_end_of_line_offset = m_buffer.size();
return {};
}
if (on_display_refresh)
on_display_refresh(*this);
if (m_cached_prompt_valid) {
if (!m_refresh_needed && m_cursor == m_buffer.size()) {
// Just write the characters out and continue,
// no need to refresh the entire line.
TRY(output_stream.write_until_depleted(m_pending_chars));
m_pending_chars.clear();
m_drawn_cursor = m_cursor;
m_drawn_end_of_line_offset = m_buffer.size();
m_cached_buffer_metrics = actual_rendered_string_metrics(buffer_view(), m_current_masks);
m_drawn_spans = m_current_spans;
return {};
}
}
auto apply_styles = [&, empty_styles = HashMap<u32, Style> {}](size_t i) -> ErrorOr<void> {
auto& ends = m_current_spans.m_spans_ending.get(i).value_or<>(empty_styles);
auto& starts = m_current_spans.m_spans_starting.get(i).value_or<>(empty_styles);
auto& anchored_ends = m_current_spans.m_anchored_spans_ending.get(i).value_or<>(empty_styles);
auto& anchored_starts = m_current_spans.m_anchored_spans_starting.get(i).value_or<>(empty_styles);
if (ends.size() || anchored_ends.size()) {
Style style;
for (auto& applicable_style : ends)
style.unify_with(applicable_style.value);
for (auto& applicable_style : anchored_ends)
style.unify_with(applicable_style.value);
// Disable any style that should be turned off.
TRY(VT::apply_style(style, output_stream, false));
// Reapply styles for overlapping spans that include this one.
style = find_applicable_style(i);
TRY(VT::apply_style(style, output_stream, true));
}
if (starts.size() || anchored_starts.size()) {
Style style;
for (auto& applicable_style : starts)
style.unify_with(applicable_style.value);
for (auto& applicable_style : anchored_starts)
style.unify_with(applicable_style.value);
// Set new styles.
TRY(VT::apply_style(style, output_stream, true));
}
return {};
};
auto print_character_at = [&](size_t i) {
Variant<u32, Utf8View> c { Utf8View {} };
if (auto it = m_current_masks.find_largest_not_above_iterator(i); !it.is_end() && it->has_value()) {
auto offset = i - it.key();
if (it->value().mode == Style::Mask::Mode::ReplaceEntireSelection) {
auto& mask = it->value().replacement_view;
auto replacement = mask.begin().peek(offset);
if (!replacement.has_value())
return;
c = replacement.value();
++it;
u32 next_offset = it.is_end() ? m_drawn_end_of_line_offset : it.key();
if (i + 1 == next_offset)
c = mask.unicode_substring_view(offset, mask.length() - offset);
} else {
c = it->value().replacement_view;
}
} else {
c = m_buffer[i];
}
auto print_single_character = [&](auto c) -> ErrorOr<void> {
StringBuilder builder;
bool should_print_masked = is_ascii_control(c) && c != '\n';
bool should_print_caret = c < 64 && should_print_masked;
if (should_print_caret)
builder.appendff("^{:c}", c + 64);
else if (should_print_masked)
builder.appendff("\\x{:0>2x}", c);
else
builder.append(Utf32View { &c, 1 });
if (should_print_masked)
TRY(output_stream.write_until_depleted("\033[7m"sv.bytes()));
TRY(output_stream.write_until_depleted(builder.string_view().bytes()));
if (should_print_masked)
TRY(output_stream.write_until_depleted("\033[27m"sv.bytes()));
return {};
};
c.visit(
[&](u32 c) { print_single_character(c).release_value_but_fixme_should_propagate_errors(); },
[&](auto& view) { for (auto c : view) print_single_character(c).release_value_but_fixme_should_propagate_errors(); });
};
// If there have been no changes to previous sections of the line (style or text)
// just append the new text with the appropriate styles.
if (!m_always_refresh && m_cached_prompt_valid && m_chars_touched_in_the_middle == 0 && m_drawn_spans.contains_up_to_offset(m_current_spans, m_drawn_cursor)) {
auto initial_style = find_applicable_style(m_drawn_end_of_line_offset);
TRY(VT::apply_style(initial_style, output_stream));
for (size_t i = m_drawn_end_of_line_offset; i < m_buffer.size(); ++i) {
TRY(apply_styles(i));
print_character_at(i);
}
TRY(VT::apply_style(Style::reset_style(), output_stream));
m_pending_chars.clear();
m_refresh_needed = false;
m_cached_buffer_metrics = actual_rendered_string_metrics(buffer_view(), m_current_masks);
m_chars_touched_in_the_middle = 0;
m_drawn_cursor = m_cursor;
m_drawn_end_of_line_offset = m_buffer.size();
// No need to reposition the cursor, the cursor is already where it needs to be.
return {};
}
if constexpr (LINE_EDITOR_DEBUG) {
if (m_cached_prompt_valid && m_chars_touched_in_the_middle == 0) {
auto x = m_drawn_spans.contains_up_to_offset(m_current_spans, m_drawn_cursor);
dbgln("Contains: {} At offset: {}", x, m_drawn_cursor);
dbgln("Drawn Spans:");
for (auto& sentry : m_drawn_spans.m_spans_starting) {
for (auto& entry : sentry.value) {
dbgln("{}-{}: {}", sentry.key, entry.key, entry.value.to_byte_string());
}
}
dbgln("==========================================================================");
dbgln("Current Spans:");
for (auto& sentry : m_current_spans.m_spans_starting) {
for (auto& entry : sentry.value) {
dbgln("{}-{}: {}", sentry.key, entry.key, entry.value.to_byte_string());
}
}
}
}
// Ouch, reflow entire line.
if (!has_cleaned_up) {
TRY(cleanup());
}
TRY(VT::move_absolute(m_origin_row, m_origin_column, output_stream));
TRY(output_stream.write_until_depleted(m_new_prompt.bytes()));
TRY(VT::clear_to_end_of_line(output_stream));
StringBuilder builder;
for (size_t i = 0; i < m_buffer.size(); ++i) {
TRY(apply_styles(i));
print_character_at(i);
}
TRY(VT::apply_style(Style::reset_style(), output_stream)); // don't bleed to EOL
m_pending_chars.clear();
m_refresh_needed = false;
m_cached_buffer_metrics = actual_rendered_string_metrics(buffer_view(), m_current_masks);
m_chars_touched_in_the_middle = 0;
m_drawn_spans = m_current_spans;
m_drawn_end_of_line_offset = m_buffer.size();
m_cached_prompt_valid = true;
TRY(reposition_cursor(output_stream));
return {};
}
void Editor::strip_styles(bool strip_anchored)
{
m_current_spans.m_spans_starting.clear();
m_current_spans.m_spans_ending.clear();
m_current_masks.clear();
m_cached_buffer_metrics = actual_rendered_string_metrics(buffer_view(), {});
if (strip_anchored) {
m_current_spans.m_anchored_spans_starting.clear();
m_current_spans.m_anchored_spans_ending.clear();
}
m_refresh_needed = true;
}
ErrorOr<void> Editor::reposition_cursor(Stream& stream, bool to_end)
{
auto cursor = m_cursor;
auto saved_cursor = m_cursor;
if (to_end)
cursor = m_buffer.size();
m_cursor = cursor;
m_drawn_cursor = cursor;
auto line = cursor_line() - 1;
auto column = offset_in_line();
ensure_free_lines_from_origin(line);
VERIFY(column + m_origin_column <= m_num_columns);
TRY(VT::move_absolute(line + m_origin_row, column + m_origin_column, stream));
m_cursor = saved_cursor;
return {};
}
ErrorOr<void> VT::move_absolute(u32 row, u32 col, Stream& stream)
{
return stream.write_until_depleted(ByteString::formatted("\033[{};{}H", row, col).bytes());
}
ErrorOr<void> VT::move_relative(int row, int col, Stream& stream)
{
char x_op = 'A', y_op = 'D';
if (row > 0)
x_op = 'B';
else
row = -row;
if (col > 0)
y_op = 'C';
else
col = -col;
if (row > 0)
TRY(stream.write_until_depleted(ByteString::formatted("\033[{}{}", row, x_op).bytes()));
if (col > 0)
TRY(stream.write_until_depleted(ByteString::formatted("\033[{}{}", col, y_op).bytes()));
return {};
}
Style Editor::find_applicable_style(size_t offset) const
{
// Walk through our styles and merge all that fit in the offset.
auto style = Style::reset_style();
auto unify = [&](auto& entry) {
if (entry.key >= offset)
return;
for (auto& style_value : entry.value) {
if (style_value.key <= offset)
return;
style.unify_with(style_value.value, true);
}
};
for (auto& entry : m_current_spans.m_spans_starting) {
unify(entry);
}
for (auto& entry : m_current_spans.m_anchored_spans_starting) {
unify(entry);
}
return style;
}
ByteString Style::Background::to_vt_escape() const
{
if (is_default())
return "";
if (m_is_rgb) {
return ByteString::formatted("\e[48;2;{};{};{}m", m_rgb_color[0], m_rgb_color[1], m_rgb_color[2]);
} else {
return ByteString::formatted("\e[{}m", (u8)m_xterm_color + 40);
}
}
ByteString Style::Foreground::to_vt_escape() const
{
if (is_default())
return "";
if (m_is_rgb) {
return ByteString::formatted("\e[38;2;{};{};{}m", m_rgb_color[0], m_rgb_color[1], m_rgb_color[2]);
} else {
return ByteString::formatted("\e[{}m", (u8)m_xterm_color + 30);
}
}
ByteString Style::Hyperlink::to_vt_escape(bool starting) const
{
if (is_empty())
return "";
return ByteString::formatted("\e]8;;{}\e\\", starting ? m_link : ByteString::empty());
}
void Style::unify_with(Style const& other, bool prefer_other)
{
// Unify colors.
if (prefer_other || m_background.is_default())
m_background = other.background();
if (prefer_other || m_foreground.is_default())
m_foreground = other.foreground();
// Unify graphic renditions.
if (other.bold())
set(Bold);
if (other.italic())
set(Italic);
if (other.underline())
set(Underline);
// Unify links.
if (prefer_other || m_hyperlink.is_empty())
m_hyperlink = other.hyperlink();
m_is_empty &= other.m_is_empty;
}
ByteString Style::to_byte_string() const
{
StringBuilder builder;
builder.append("Style { "sv);
if (!m_foreground.is_default()) {
builder.append("Foreground("sv);
if (m_foreground.m_is_rgb) {
builder.join(", "sv, m_foreground.m_rgb_color);
} else {
builder.appendff("(XtermColor) {}", (int)m_foreground.m_xterm_color);
}
builder.append("), "sv);
}
if (!m_background.is_default()) {
builder.append("Background("sv);
if (m_background.m_is_rgb) {
builder.join(' ', m_background.m_rgb_color);
} else {
builder.appendff("(XtermColor) {}", (int)m_background.m_xterm_color);
}
builder.append("), "sv);
}
if (bold())
builder.append("Bold, "sv);
if (underline())
builder.append("Underline, "sv);
if (italic())
builder.append("Italic, "sv);
if (!m_hyperlink.is_empty())
builder.appendff("Hyperlink(\"{}\"), ", m_hyperlink.m_link);
if (!m_mask.has_value()) {
builder.appendff("Mask(\"{}\", {}), ",
m_mask->replacement,
m_mask->mode == Mask::Mode::ReplaceEntireSelection
? "ReplaceEntireSelection"
: "ReplaceEachCodePointInSelection");
}
builder.append('}');
return builder.to_byte_string();
}
ErrorOr<void> VT::apply_style(Style const& style, Stream& stream, bool is_starting)
{
if (is_starting) {
TRY(stream.write_until_depleted(ByteString::formatted("\033[{};{};{}m{}{}{}",
style.bold() ? 1 : 22,
style.underline() ? 4 : 24,
style.italic() ? 3 : 23,
style.background().to_vt_escape(),
style.foreground().to_vt_escape(),
style.hyperlink().to_vt_escape(true))
.bytes()));
} else {
TRY(stream.write_until_depleted(style.hyperlink().to_vt_escape(false).bytes()));
}
return {};
}
ErrorOr<void> VT::clear_lines(size_t count_above, size_t count_below, Stream& stream)
{
if (count_below + count_above == 0) {
TRY(stream.write_until_depleted("\033[2K"sv.bytes()));
} else {
// Go down count_below lines.
if (count_below > 0)
TRY(stream.write_until_depleted(ByteString::formatted("\033[{}B", count_below).bytes()));
// Then clear lines going upwards.
for (size_t i = count_below + count_above; i > 0; --i) {
TRY(stream.write_until_depleted("\033[2K"sv.bytes()));
if (i != 1)
TRY(stream.write_until_depleted("\033[A"sv.bytes()));
}
}
return {};
}
ErrorOr<void> VT::save_cursor(Stream& stream)
{
return stream.write_until_depleted("\033[s"sv.bytes());
}
ErrorOr<void> VT::restore_cursor(Stream& stream)
{
return stream.write_until_depleted("\033[u"sv.bytes());
}
ErrorOr<void> VT::clear_to_end_of_line(Stream& stream)
{
return stream.write_until_depleted("\033[K"sv.bytes());
}
enum VTState {
Free = 1,
Escape = 3,
Bracket = 5,
BracketArgsSemi = 7,
Title = 9,
URL = 11,
};
static VTState actual_rendered_string_length_step(StringMetrics& metrics, size_t index, StringMetrics::LineMetrics& current_line, u32 c, u32 next_c, VTState state, Optional<Style::Mask> const& mask, Optional<size_t> const& maximum_line_width = {}, Optional<size_t&> last_return = {});
enum class MaskedSelectionDecision {
Skip,
Continue,
};
static MaskedSelectionDecision resolve_masked_selection(Optional<Style::Mask>& mask, size_t& i, auto& mask_it, auto& view, auto& state, auto& metrics, auto& current_line)
{
if (mask.has_value() && mask->mode == Style::Mask::Mode::ReplaceEntireSelection) {
++mask_it;
auto actual_end_offset = mask_it.is_end() ? view.length() : mask_it.key();
auto end_offset = min(actual_end_offset, view.length());
size_t j = 0;
for (auto it = mask->replacement_view.begin(); it != mask->replacement_view.end(); ++it) {
auto it_copy = it;
++it_copy;
auto next_c = it_copy == mask->replacement_view.end() ? 0 : *it_copy;
state = actual_rendered_string_length_step(metrics, j, current_line, *it, next_c, state, {});
++j;
if (j <= actual_end_offset - i && j + i >= view.length())
break;
}
current_line.masked_chars.empend(i, end_offset - i, j);
i = end_offset;
if (mask_it.is_end())
mask = {};
else
mask = *mask_it;
return MaskedSelectionDecision::Skip;
}
return MaskedSelectionDecision::Continue;
}
StringMetrics Editor::actual_rendered_string_metrics(StringView string, RedBlackTree<u32, Optional<Style::Mask>> const& masks, Optional<size_t> maximum_line_width)
{
Vector<u32> utf32_buffer;
utf32_buffer.ensure_capacity(string.length());
for (auto c : Utf8View { string })
utf32_buffer.append(c);
return actual_rendered_string_metrics(Utf32View { utf32_buffer.data(), utf32_buffer.size() }, masks, maximum_line_width);
}
StringMetrics Editor::actual_rendered_string_metrics(Utf32View const& view, RedBlackTree<u32, Optional<Style::Mask>> const& masks, Optional<size_t> maximum_line_width)
{
StringMetrics metrics;
StringMetrics::LineMetrics current_line;
VTState state { Free };
Optional<Style::Mask> mask;
size_t last_return { 0 };
auto mask_it = masks.begin();
Vector<size_t> grapheme_breaks;
Unicode::for_each_grapheme_segmentation_boundary(view, [&](size_t offset) -> IterationDecision {
if (offset >= view.length())
return IterationDecision::Break;
grapheme_breaks.append(offset);
return IterationDecision::Continue;
});
// In case Unicode data isn't available, default to using code points as grapheme boundaries.
if (grapheme_breaks.is_empty()) {
for (size_t i = 0; i < view.length(); ++i)
grapheme_breaks.append(i);
}
for (size_t break_index = 0; break_index < grapheme_breaks.size(); ++break_index) {
auto i = grapheme_breaks[break_index];
auto c = view[i];
if (!mask_it.is_end() && mask_it.key() <= i)
mask = *mask_it;
if (resolve_masked_selection(mask, i, mask_it, view, state, metrics, current_line) == MaskedSelectionDecision::Skip) {
--i;
binary_search(grapheme_breaks, i, &break_index);
continue;
}
auto next_c = break_index + 1 < grapheme_breaks.size() ? view.code_points()[grapheme_breaks[break_index + 1]] : 0;
state = actual_rendered_string_length_step(metrics, i, current_line, c, next_c, state, mask, maximum_line_width, last_return);
if (!mask_it.is_end() && mask_it.key() <= i) {
auto mask_it_peek = mask_it;
++mask_it_peek;
if (!mask_it_peek.is_end() && mask_it_peek.key() > i)
mask_it = mask_it_peek;
}
}
metrics.line_metrics.append(current_line);
for (auto& line : metrics.line_metrics)
metrics.max_line_length = max(line.total_length(), metrics.max_line_length);
metrics.grapheme_breaks = move(grapheme_breaks);
return metrics;
}
VTState actual_rendered_string_length_step(StringMetrics& metrics, size_t index, StringMetrics::LineMetrics& current_line, u32 c, u32 next_c, VTState state, Optional<Style::Mask> const& mask, Optional<size_t> const& maximum_line_width, Optional<size_t&> last_return)
{
auto const save_line = [&metrics, &current_line, &last_return, &index]() {
if (last_return.has_value()) {
auto const last_index = index - 1;
current_line.bit_length = last_index - *last_return + 1;
last_return.value() = last_index + 1;
}
metrics.line_metrics.append(current_line);
current_line.masked_chars = {};
current_line.length = 0;
current_line.visible_length = 0;
current_line.bit_length = {};
};
// FIXME: current_line.visible_length can go above maximum_line_width when using masks
if (maximum_line_width.has_value() && current_line.visible_length >= maximum_line_width.value())
save_line();
ScopeGuard bit_length_update { [&last_return, &current_line, &index]() {
if (last_return.has_value())
current_line.bit_length = index - *last_return + 1;
} };
switch (state) {
case Free: {
if (c == '\x1b') { // escape
return Escape;
}
if (c == '\r') { // carriage return
current_line.masked_chars = {};
current_line.length = 0;
current_line.visible_length = 0;
if (!metrics.line_metrics.is_empty())
metrics.line_metrics.last() = { {}, 0 };
return state;
}
if (c == '\n') { // return
save_line();
return state;
}
if (c == '\t') {
// Tabs are a special case, because their width is variable.
++current_line.length;
current_line.visible_length += (8 - (current_line.visible_length % 8));
return state;
}
auto is_control = is_ascii_control(c);
if (is_control) {
if (mask.has_value())
current_line.masked_chars.append({ index, 1, mask->replacement_view.length() });
else
current_line.masked_chars.append({ index, 1, c < 64 ? 2u : 4u }); // if the character cannot be represented as ^c, represent it as \xbb.
}
// FIXME: This will not support anything sophisticated
if (mask.has_value()) {
current_line.length += mask->replacement_view.length();
current_line.visible_length += mask->replacement_view.length();
metrics.total_length += mask->replacement_view.length();
} else if (is_control) {
current_line.length += current_line.masked_chars.last().masked_length;
current_line.visible_length += current_line.masked_chars.last().masked_length;
metrics.total_length += current_line.masked_chars.last().masked_length;
} else {
++current_line.length;
++current_line.visible_length;
++metrics.total_length;
}
return state;
}
case Escape:
if (c == ']') {
if (next_c == '0')
state = Title;
if (next_c == '8')
state = URL;
return state;
}
if (c == '[') {
return Bracket;
}
// FIXME: This does not support non-VT (aside from set-title) escapes
return state;
case Bracket:
if (is_ascii_digit(c)) {
return BracketArgsSemi;
}
return state;
case BracketArgsSemi:
if (c == ';') {
return Bracket;
}
if (!is_ascii_digit(c))
state = Free;
return state;
case Title:
if (c == 7)
state = Free;
return state;
case URL:
if (c == '\\')
state = Free;
return state;
}
return state;
}
Result<Vector<size_t, 2>, Editor::Error> Editor::vt_dsr()
{
char buf[16];
// Read whatever junk there is before talking to the terminal
// and insert them later when we're reading user input.
bool more_junk_to_read { false };
timeval timeout { 0, 0 };
fd_set readfds;
FD_ZERO(&readfds);
FD_SET(0, &readfds);
do {
more_junk_to_read = false;
[[maybe_unused]] auto rc = select(1, &readfds, nullptr, nullptr, &timeout);
if (FD_ISSET(0, &readfds)) {
auto nread = read(0, buf, 16);
if (nread < 0) {
m_input_error = Error::ReadFailure;
finish();
break;
}
if (nread == 0)
break;
m_incomplete_data.append(buf, nread);
more_junk_to_read = true;
}
} while (more_junk_to_read);
if (m_input_error.has_value())
return m_input_error.value();
fputs("\033[6n", stderr);
fflush(stderr);
// Parse the DSR response
// it should be of the form .*\e[\d+;\d+R.*
// Anything not part of the response is just added to the incomplete data.
enum {
Free,
SawEsc,
SawBracket,
InFirstCoordinate,
SawSemicolon,
InSecondCoordinate,
SawR,
} state { Free };
auto has_error = false;
Vector<char, 4> coordinate_buffer;
size_t row { 1 }, col { 1 };
do {
char c;
auto nread = read(0, &c, 1);
if (nread < 0) {
if (errno == 0 || errno == EINTR) {
// ????
continue;
}
dbgln("Error while reading DSR: {}", strerror(errno));
return Error::ReadFailure;
}
if (nread == 0) {
dbgln("Terminal DSR issue; received no response");
return Error::Empty;
}
switch (state) {
case Free:
if (c == '\x1b') {
state = SawEsc;
continue;
}
m_incomplete_data.append(c);
continue;
case SawEsc:
if (c == '[') {
state = SawBracket;
continue;
}
m_incomplete_data.append(c);
state = Free;
continue;
case SawBracket:
if (is_ascii_digit(c)) {
state = InFirstCoordinate;
coordinate_buffer.clear_with_capacity();
coordinate_buffer.append(c);
continue;
}
m_incomplete_data.append(c);
state = Free;
continue;
case InFirstCoordinate:
if (is_ascii_digit(c)) {
coordinate_buffer.append(c);
continue;
}
if (c == ';') {
auto maybe_row = StringView { coordinate_buffer.data(), coordinate_buffer.size() }.to_number<unsigned>();
if (!maybe_row.has_value())
has_error = true;
row = maybe_row.value_or(1u);
coordinate_buffer.clear_with_capacity();
state = SawSemicolon;
continue;
}
m_incomplete_data.append(c);
state = Free;
continue;
case SawSemicolon:
if (is_ascii_digit(c)) {
state = InSecondCoordinate;
coordinate_buffer.append(c);
continue;
}
m_incomplete_data.append(c);
state = Free;
continue;
case InSecondCoordinate:
if (is_ascii_digit(c)) {
coordinate_buffer.append(c);
continue;
}
if (c == 'R') {
auto maybe_column = StringView { coordinate_buffer.data(), coordinate_buffer.size() }.to_number<unsigned>();
if (!maybe_column.has_value())
has_error = true;
col = maybe_column.value_or(1u);
coordinate_buffer.clear_with_capacity();
state = SawR;
continue;
}
m_incomplete_data.append(c);
state = Free;
continue;
case SawR:
m_incomplete_data.append(c);
continue;
default:
VERIFY_NOT_REACHED();
}
} while (state != SawR);
if (has_error)
dbgln("Terminal DSR issue, couldn't parse DSR response");
return Vector<size_t, 2> { row, col };
}
ByteString Editor::line(size_t up_to_index) const
{
StringBuilder builder;
builder.append(Utf32View { m_buffer.data(), min(m_buffer.size(), up_to_index) });
return builder.to_byte_string();
}
void Editor::remove_at_index(size_t index)
{
// See if we have any anchored styles, and reposition them if needed.
readjust_anchored_styles(index, ModificationKind::Removal);
auto cp = m_buffer[index];
m_buffer.remove(index);
if (cp == '\n')
++m_extra_forward_lines;
++m_chars_touched_in_the_middle;
}
void Editor::readjust_anchored_styles(size_t hint_index, ModificationKind modification)
{
struct Anchor {
Span old_span;
Span new_span;
Style style;
};
Vector<Anchor> anchors_to_relocate;
auto index_shift = modification == ModificationKind::Insertion ? 1 : -1;
auto forced_removal = modification == ModificationKind::ForcedOverlapRemoval;
for (auto& start_entry : m_current_spans.m_anchored_spans_starting) {
for (auto& end_entry : start_entry.value) {
if (forced_removal) {
if (start_entry.key <= hint_index && end_entry.key > hint_index) {
// Remove any overlapping regions.
continue;
}
}
if (start_entry.key >= hint_index) {
if (start_entry.key == hint_index && end_entry.key == hint_index + 1 && modification == ModificationKind::Removal) {
// Remove the anchor, as all its text was wiped.
continue;
}
// Shift everything.
anchors_to_relocate.append({ { start_entry.key, end_entry.key, Span::Mode::CodepointOriented }, { start_entry.key + index_shift, end_entry.key + index_shift, Span::Mode::CodepointOriented }, end_entry.value });
continue;
}
if (end_entry.key > hint_index) {
// Shift just the end.
anchors_to_relocate.append({ { start_entry.key, end_entry.key, Span::Mode::CodepointOriented }, { start_entry.key, end_entry.key + index_shift, Span::Mode::CodepointOriented }, end_entry.value });
continue;
}
anchors_to_relocate.append({ { start_entry.key, end_entry.key, Span::Mode::CodepointOriented }, { start_entry.key, end_entry.key, Span::Mode::CodepointOriented }, end_entry.value });
}
}
m_current_spans.m_anchored_spans_ending.clear();
m_current_spans.m_anchored_spans_starting.clear();
// Pass over the relocations and update the stale entries.
for (auto& relocation : anchors_to_relocate) {
stylize(relocation.new_span, relocation.style);
}
}
size_t StringMetrics::lines_with_addition(StringMetrics const& offset, size_t column_width) const
{
size_t lines = 0;
if (!line_metrics.is_empty()) {
for (size_t i = 0; i < line_metrics.size() - 1; ++i)
lines += (line_metrics[i].total_length() + column_width) / column_width;
auto last = line_metrics.last().total_length();
last += offset.line_metrics.first().total_length();
lines += (last + column_width) / column_width;
}
for (size_t i = 1; i < offset.line_metrics.size(); ++i)
lines += (offset.line_metrics[i].total_length() + column_width) / column_width;
return lines;
}
size_t StringMetrics::offset_with_addition(StringMetrics const& offset, size_t column_width) const
{
if (offset.line_metrics.size() > 1)
return offset.line_metrics.last().total_length() % column_width;
if (!line_metrics.is_empty()) {
auto last = line_metrics.last().total_length();
last += offset.line_metrics.first().total_length();
return last % column_width;
}
if (offset.line_metrics.is_empty())
return 0;
return offset.line_metrics.first().total_length() % column_width;
}
bool Editor::Spans::contains_up_to_offset(Spans const& other, size_t offset) const
{
auto compare = [&]<typename K, typename V>(HashMap<K, HashMap<K, V>> const& left, HashMap<K, HashMap<K, V>> const& right) -> bool {
for (auto& entry : right) {
if (entry.key > offset + 1)
continue;
auto left_map_it = left.find(entry.key);
if (left_map_it == left.end())
return false;
for (auto& left_entry : left_map_it->value) {
auto value_it = entry.value.find(left_entry.key);
if (value_it == entry.value.end()) {
// Might have the same thing with a longer span
bool found = false;
for (auto& possibly_longer_span_entry : entry.value) {
if (possibly_longer_span_entry.key > left_entry.key && possibly_longer_span_entry.key > offset && left_entry.value == possibly_longer_span_entry.value) {
found = true;
break;
}
}
if (found)
continue;
if constexpr (LINE_EDITOR_DEBUG) {
dbgln("Compare for {}-{} failed, no entry", entry.key, left_entry.key);
for (auto& x : entry.value)
dbgln("Have: {}-{} = {}", entry.key, x.key, x.value.to_byte_string());
}
return false;
} else if (value_it->value != left_entry.value) {
dbgln_if(LINE_EDITOR_DEBUG, "Compare for {}-{} failed, different values: {} != {}", entry.key, left_entry.key, value_it->value.to_byte_string(), left_entry.value.to_byte_string());
return false;
}
}
}
return true;
};
return compare(m_spans_starting, other.m_spans_starting)
&& compare(m_anchored_spans_starting, other.m_anchored_spans_starting);
}
}
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