ladybird/Libraries/LibLine/Editor.h

529 lines
16 KiB
C++

/*
* Copyright (c) 2018-2020, Andreas Kling <andreas@ladybird.org>
* Copyright (c) 2021, the SerenityOS developers.
*
* SPDX-License-Identifier: BSD-2-Clause
*/
#pragma once
#include <AK/BinarySearch.h>
#include <AK/ByteBuffer.h>
#include <AK/ByteString.h>
#include <AK/Function.h>
#include <AK/HashMap.h>
#include <AK/OwnPtr.h>
#include <AK/RedBlackTree.h>
#include <AK/Result.h>
#include <AK/Traits.h>
#include <AK/Utf32View.h>
#include <AK/Utf8View.h>
#include <AK/Vector.h>
#include <LibCore/DirIterator.h>
#include <LibCore/EventLoop.h>
#include <LibCore/EventReceiver.h>
#include <LibCore/Notifier.h>
#include <LibLine/KeyCallbackMachine.h>
#include <LibLine/Span.h>
#include <LibLine/StringMetrics.h>
#include <LibLine/Style.h>
#include <LibLine/SuggestionDisplay.h>
#include <LibLine/SuggestionManager.h>
#include <LibLine/VT.h>
#include <sys/ioctl.h>
#include <sys/stat.h>
#include <termios.h>
namespace Line {
static constexpr u32 ctrl(char c) { return c & 0x3f; }
struct KeyBinding {
Vector<Key> keys;
enum class Kind {
InternalFunction,
Insertion,
} kind { Kind::InternalFunction };
ByteString binding;
};
struct Configuration {
enum RefreshBehavior {
Lazy,
Eager,
};
enum OperationMode {
Unset,
Full,
NoEscapeSequences,
NonInteractive,
};
enum SignalHandler {
WithSignalHandlers,
NoSignalHandlers,
};
enum Flags : u32 {
None = 0,
BracketedPaste = 1,
};
struct DefaultTextEditor {
ByteString command;
};
Configuration()
{
}
template<typename Arg, typename... Rest>
Configuration(Arg arg, Rest... rest)
: Configuration(rest...)
{
set(arg);
}
void set(RefreshBehavior refresh) { refresh_behavior = refresh; }
void set(OperationMode mode) { operation_mode = mode; }
void set(SignalHandler mode) { m_signal_mode = mode; }
void set(KeyBinding const& binding) { keybindings.append(binding); }
void set(DefaultTextEditor editor) { m_default_text_editor = move(editor.command); }
void set(Flags flags)
{
enable_bracketed_paste = flags & Flags::BracketedPaste;
}
static Configuration from_config(StringView libname = "line"sv);
RefreshBehavior refresh_behavior { RefreshBehavior::Lazy };
SignalHandler m_signal_mode { SignalHandler::WithSignalHandlers };
OperationMode operation_mode { OperationMode::Unset };
Vector<KeyBinding> keybindings;
ByteString m_default_text_editor {};
bool enable_bracketed_paste { false };
};
#define ENUMERATE_EDITOR_INTERNAL_FUNCTIONS(M) \
M(clear_screen) \
M(cursor_left_character) \
M(cursor_left_word) \
M(cursor_left_nonspace_word) \
M(cursor_right_character) \
M(cursor_right_word) \
M(cursor_right_nonspace_word) \
M(enter_search) \
M(search_character_backwards) \
M(search_character_forwards) \
M(erase_character_backwards) \
M(erase_character_forwards) \
M(erase_to_beginning) \
M(erase_to_end) \
M(erase_word_backwards) \
M(finish_edit) \
M(go_end) \
M(go_home) \
M(kill_line) \
M(search_backwards) \
M(search_forwards) \
M(transpose_characters) \
M(transpose_words) \
M(insert_last_words) \
M(insert_last_erased) \
M(erase_alnum_word_backwards) \
M(erase_alnum_word_forwards) \
M(erase_spaces) \
M(capitalize_word) \
M(lowercase_word) \
M(uppercase_word) \
M(edit_in_external_editor)
#define EDITOR_INTERNAL_FUNCTION(name) \
[](auto& editor) { editor.name(); return false; }
class Editor : public Core::EventReceiver {
C_OBJECT(Editor);
public:
enum class Error {
ReadFailure,
Empty,
Eof,
};
~Editor();
Result<ByteString, Error> get_line(ByteString const& prompt);
void initialize();
void refetch_default_termios();
void add_to_history(ByteString const& line);
bool load_history(ByteString const& path);
bool save_history(ByteString const& path);
auto const& history() const { return m_history; }
bool is_history_dirty() const { return m_history_dirty; }
void register_key_input_callback(KeyBinding const&);
void register_key_input_callback(Vector<Key> keys, Function<bool(Editor&)> callback) { m_callback_machine.register_key_input_callback(move(keys), move(callback)); }
void register_key_input_callback(Key key, Function<bool(Editor&)> callback) { register_key_input_callback(Vector<Key> { key }, move(callback)); }
static StringMetrics actual_rendered_string_metrics(StringView, RedBlackTree<u32, Optional<Style::Mask>> const& masks = {}, Optional<size_t> maximum_line_width = {});
static StringMetrics actual_rendered_string_metrics(Utf32View const&, RedBlackTree<u32, Optional<Style::Mask>> const& masks = {}, Optional<size_t> maximum_line_width = {});
Function<Vector<CompletionSuggestion>(Editor const&)> on_tab_complete;
Function<void(Utf32View, Editor&)> on_paste;
Function<void()> on_interrupt_handled;
Function<void(Editor&)> on_display_refresh;
static Function<bool(Editor&)> find_internal_function(StringView name);
enum class CaseChangeOp {
Lowercase,
Uppercase,
Capital,
};
void case_change_word(CaseChangeOp);
#define __ENUMERATE_EDITOR_INTERNAL_FUNCTION(name) \
void name();
ENUMERATE_EDITOR_INTERNAL_FUNCTIONS(__ENUMERATE_EDITOR_INTERNAL_FUNCTION)
#undef __ENUMERATE_EDITOR_INTERNAL_FUNCTION
ErrorOr<void> interrupted();
ErrorOr<void> resized();
size_t cursor() const { return m_cursor; }
void set_cursor(size_t cursor)
{
if (cursor > m_buffer.size())
cursor = m_buffer.size();
m_cursor = cursor;
}
Vector<u32, 1024> const& buffer() const { return m_buffer; }
u32 buffer_at(size_t pos) const { return m_buffer.at(pos); }
ByteString line() const { return line(m_buffer.size()); }
ByteString line(size_t up_to_index) const;
// Only makes sense inside a character_input callback or on_* callback.
void set_prompt(ByteString const& prompt)
{
if (m_cached_prompt_valid)
m_old_prompt_metrics = m_cached_prompt_metrics;
m_cached_prompt_valid = false;
m_cached_prompt_metrics = actual_rendered_string_metrics(prompt, {});
m_new_prompt = prompt;
}
void clear_line();
void insert(ByteString const&);
void insert(StringView);
void insert(Utf8View&);
void insert(Utf32View const&);
void insert(u32 const);
void stylize(Span const&, Style const&);
void strip_styles(bool strip_anchored = false);
// Invariant Offset is an offset into the suggested data, hinting the editor what parts of the suggestion will not change
// Static Offset is an offset into the token, signifying where the suggestions start
// e.g.
// foobar<suggestion initiated>, on_tab_complete returns "barx", "bary", "barz"
// ^ ^
// +-|- static offset: the suggestions start here
// +- invariant offset: the suggestions do not change up to here
//
void transform_suggestion_offsets(size_t& invariant_offset, size_t& static_offset, Span::Mode offset_mode = Span::ByteOriented) const;
const struct termios& termios() const { return m_termios; }
const struct termios& default_termios() const { return m_default_termios; }
struct winsize terminal_size() const
{
winsize ws { (u16)m_num_lines, (u16)m_num_columns, 0, 0 };
return ws;
}
void finish()
{
m_finish = true;
}
bool is_editing() const { return m_is_editing; }
Utf32View const buffer_view() const { return { m_buffer.data(), m_buffer.size() }; }
auto prohibit_input()
{
auto previous_value = m_prohibit_input_processing;
m_prohibit_input_processing = true;
m_have_unprocessed_read_event = false;
return ScopeGuard {
[this, previous_value] {
m_prohibit_input_processing = previous_value;
if (!m_prohibit_input_processing && m_have_unprocessed_read_event)
handle_read_event().release_value_but_fixme_should_propagate_errors();
}
};
}
private:
explicit Editor(Configuration configuration = Configuration::from_config());
void set_default_keybinds();
enum LoopExitCode {
Exit = 0,
Retry
};
ErrorOr<void> try_update_once();
void handle_interrupt_event();
ErrorOr<void> handle_read_event();
ErrorOr<void> handle_resize_event(bool reset_origin);
void ensure_free_lines_from_origin(size_t count);
Result<Vector<size_t, 2>, Error> vt_dsr();
void remove_at_index(size_t);
enum class ModificationKind {
Insertion,
Removal,
ForcedOverlapRemoval,
};
void readjust_anchored_styles(size_t hint_index, ModificationKind);
Style find_applicable_style(size_t offset) const;
bool search(StringView, bool allow_empty = false, bool from_beginning = true);
inline void end_search()
{
m_is_searching = false;
m_refresh_needed = true;
m_search_offset = 0;
if (m_reset_buffer_on_search_end) {
m_buffer.clear();
for (auto ch : m_pre_search_buffer)
m_buffer.append(ch);
m_cursor = m_pre_search_cursor;
}
m_reset_buffer_on_search_end = true;
m_search_editor = nullptr;
}
void reset()
{
m_cached_buffer_metrics.reset();
m_cached_prompt_valid = false;
m_cursor = 0;
m_drawn_cursor = 0;
m_inline_search_cursor = 0;
m_search_offset = 0;
m_search_offset_state = SearchOffsetState::Unbiased;
m_old_prompt_metrics = m_cached_prompt_metrics;
set_origin(0, 0);
m_prompt_lines_at_suggestion_initiation = 0;
m_refresh_needed = true;
m_input_error.clear();
m_returned_line = ByteString::empty();
m_chars_touched_in_the_middle = 0;
m_drawn_end_of_line_offset = 0;
m_drawn_spans = {};
m_paste_buffer.clear_with_capacity();
}
ErrorOr<void> refresh_display();
ErrorOr<void> cleanup();
ErrorOr<void> cleanup_suggestions();
ErrorOr<void> really_quit_event_loop();
void restore()
{
VERIFY(m_initialized);
tcsetattr(0, TCSANOW, &m_default_termios);
m_initialized = false;
if (m_configuration.enable_bracketed_paste)
warn("\x1b[?2004l");
for (auto id : m_signal_handlers)
Core::EventLoop::unregister_signal(id);
}
StringMetrics const& current_prompt_metrics() const
{
return m_cached_prompt_valid ? m_cached_prompt_metrics : m_old_prompt_metrics;
}
size_t num_lines() const
{
return current_prompt_metrics().lines_with_addition(m_cached_buffer_metrics, m_num_columns);
}
size_t cursor_line() const
{
auto cursor = m_drawn_cursor;
if (cursor > m_cursor)
cursor = m_cursor;
return current_prompt_metrics().lines_with_addition(
actual_rendered_string_metrics(buffer_view().substring_view(0, cursor), m_current_masks),
m_num_columns);
}
size_t offset_in_line() const
{
auto cursor = m_drawn_cursor;
if (cursor > m_cursor)
cursor = m_cursor;
auto buffer_metrics = actual_rendered_string_metrics(buffer_view().substring_view(0, cursor), m_current_masks);
return current_prompt_metrics().offset_with_addition(buffer_metrics, m_num_columns);
}
bool set_origin(bool quit_on_error = true)
{
auto position = vt_dsr();
if (!position.is_error()) {
set_origin(position.value()[0], position.value()[1]);
return true;
}
if (quit_on_error && position.is_error()) {
m_input_error = position.error();
finish();
}
return false;
}
void set_origin(int row, int col)
{
m_origin_row = row;
m_origin_column = col;
m_suggestion_display->set_origin(row, col, {});
}
void recalculate_origin();
ErrorOr<void> reposition_cursor(Stream&, bool to_end = false);
struct CodepointRange {
size_t start { 0 };
size_t end { 0 };
};
CodepointRange byte_offset_range_to_code_point_offset_range(size_t byte_start, size_t byte_end, size_t code_point_scan_offset, bool reverse = false) const;
void get_terminal_size();
bool m_finish { false };
RefPtr<Editor> m_search_editor;
bool m_is_searching { false };
bool m_reset_buffer_on_search_end { true };
size_t m_search_offset { 0 };
enum class SearchOffsetState {
Unbiased,
Backwards,
Forwards,
} m_search_offset_state { SearchOffsetState::Unbiased };
size_t m_pre_search_cursor { 0 };
Vector<u32, 1024> m_pre_search_buffer;
Vector<u32, 1024> m_buffer;
ByteBuffer m_pending_chars;
Vector<char, 512> m_incomplete_data;
Optional<Error> m_input_error;
ByteString m_returned_line;
size_t m_cursor { 0 };
size_t m_drawn_cursor { 0 };
size_t m_drawn_end_of_line_offset { 0 };
size_t m_inline_search_cursor { 0 };
size_t m_chars_touched_in_the_middle { 0 };
size_t m_times_tab_pressed { 0 };
size_t m_num_columns { 0 };
size_t m_num_lines { 1 };
size_t m_previous_num_columns { 0 };
size_t m_extra_forward_lines { 0 };
size_t m_shown_lines { 0 };
StringMetrics m_cached_prompt_metrics;
StringMetrics m_old_prompt_metrics;
StringMetrics m_cached_buffer_metrics;
size_t m_prompt_lines_at_suggestion_initiation { 0 };
bool m_cached_prompt_valid { false };
// Exact position before our prompt in the terminal.
size_t m_origin_row { 0 };
size_t m_origin_column { 0 };
bool m_expected_origin_changed { false };
bool m_has_origin_reset_scheduled { false };
OwnPtr<SuggestionDisplay> m_suggestion_display;
Vector<u32, 32> m_remembered_suggestion_static_data;
ByteString m_new_prompt;
SuggestionManager m_suggestion_manager;
bool m_always_refresh { false };
enum class TabDirection {
Forward,
Backward,
};
TabDirection m_tab_direction { TabDirection::Forward };
KeyCallbackMachine m_callback_machine;
struct termios m_termios {
};
struct termios m_default_termios {
};
bool m_was_interrupted { false };
bool m_previous_interrupt_was_handled_as_interrupt { true };
bool m_was_resized { false };
// FIXME: This should be something more take_first()-friendly.
struct HistoryEntry {
ByteString entry;
time_t timestamp;
};
Vector<HistoryEntry> m_history;
size_t m_history_cursor { 0 };
size_t m_history_capacity { 1024 };
bool m_history_dirty { false };
static ErrorOr<Vector<HistoryEntry>> try_load_history(StringView path);
enum class InputState {
Free,
Verbatim,
Paste,
GotEscape,
CSIExpectParameter,
CSIExpectIntermediate,
CSIExpectFinal,
};
InputState m_state { InputState::Free };
InputState m_previous_free_state { InputState::Free };
struct Spans {
HashMap<u32, HashMap<u32, Style>> m_spans_starting;
HashMap<u32, HashMap<u32, Style>> m_spans_ending;
HashMap<u32, HashMap<u32, Style>> m_anchored_spans_starting;
HashMap<u32, HashMap<u32, Style>> m_anchored_spans_ending;
bool contains_up_to_offset(Spans const& other, size_t offset) const;
} m_drawn_spans, m_current_spans;
RedBlackTree<u32, Optional<Style::Mask>> m_current_masks;
RefPtr<Core::Notifier> m_notifier;
Vector<u32> m_paste_buffer;
Vector<u32> m_last_erased;
bool m_initialized { false };
bool m_refresh_needed { false };
Vector<int, 2> m_signal_handlers;
bool m_is_editing { false };
bool m_prohibit_input_processing { false };
bool m_have_unprocessed_read_event { false };
Configuration m_configuration;
};
}