fish-shell/src/input.cpp

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// Functions for reading a character of input from stdin.
#include "config.h"
#include <errno.h>
#if HAVE_TERM_H
#include <curses.h> // IWYU pragma: keep
#include <term.h>
#elif HAVE_NCURSES_TERM_H
#include <ncurses/term.h>
#endif
#include <termios.h>
#include <algorithm>
#include <memory>
#include <string>
#include <utility>
#include <vector>
#include "common.h"
#include "env.h"
#include "event.h"
#include "fallback.h" // IWYU pragma: keep
#include "flog.h"
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#include "global_safety.h"
#include "input.h"
#include "input_common.h"
#include "parser.h"
#include "proc.h"
#include "reader.h"
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#include "signals.h" // IWYU pragma: keep
#include "threads.rs.h"
#include "wutil.h" // IWYU pragma: keep
/// A name for our own key mapping for nul.
static const wchar_t *k_nul_mapping_name = L"nul";
/// Struct representing a keybinding. Returned by input_get_mappings.
struct input_mapping_t {
/// Character sequence which generates this event.
wcstring seq;
/// Commands that should be evaluated by this mapping.
std::vector<wcstring> commands;
/// We wish to preserve the user-specified order. This is just an incrementing value.
unsigned int specification_order;
/// Mode in which this command should be evaluated.
wcstring mode;
/// New mode that should be switched to after command evaluation.
wcstring sets_mode;
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input_mapping_t(wcstring s, std::vector<wcstring> c, wcstring m, wcstring sm)
: seq(std::move(s)), commands(std::move(c)), mode(std::move(m)), sets_mode(std::move(sm)) {
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static unsigned int s_last_input_map_spec_order = 0;
specification_order = ++s_last_input_map_spec_order;
}
/// \return true if this is a generic mapping, i.e. acts as a fallback.
bool is_generic() const { return seq.empty(); }
};
/// A struct representing the mapping from a terminfo key name to a terminfo character sequence.
struct terminfo_mapping_t {
// name of key
const wchar_t *name;
// character sequence generated on keypress, or none if there was no mapping.
maybe_t<std::string> seq;
terminfo_mapping_t(const wchar_t *name, const char *s) : name(name) {
if (s) seq.emplace(s);
}
terminfo_mapping_t(const wchar_t *name, std::string s) : name(name), seq(std::move(s)) {}
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};
static constexpr size_t input_function_count = R_END_INPUT_FUNCTIONS;
/// Input function metadata. This list should be kept in sync with the key code list in
/// input_common.h.
struct input_function_metadata_t {
const wchar_t *name;
readline_cmd_t code;
};
/// A static mapping of all readline commands as strings to their readline_cmd_t equivalent.
/// Keep this list sorted alphabetically!
static constexpr const input_function_metadata_t input_function_metadata[] = {
// NULL makes it unusable - this is specially inserted when we detect mouse input
{L"", readline_cmd_t::disable_mouse_tracking},
{L"accept-autosuggestion", readline_cmd_t::accept_autosuggestion},
{L"and", readline_cmd_t::func_and},
{L"backward-bigword", readline_cmd_t::backward_bigword},
{L"backward-char", readline_cmd_t::backward_char},
{L"backward-delete-char", readline_cmd_t::backward_delete_char},
{L"backward-jump", readline_cmd_t::backward_jump},
{L"backward-jump-till", readline_cmd_t::backward_jump_till},
{L"backward-kill-bigword", readline_cmd_t::backward_kill_bigword},
{L"backward-kill-line", readline_cmd_t::backward_kill_line},
{L"backward-kill-path-component", readline_cmd_t::backward_kill_path_component},
{L"backward-kill-word", readline_cmd_t::backward_kill_word},
{L"backward-word", readline_cmd_t::backward_word},
{L"begin-selection", readline_cmd_t::begin_selection},
{L"begin-undo-group", readline_cmd_t::begin_undo_group},
{L"beginning-of-buffer", readline_cmd_t::beginning_of_buffer},
{L"beginning-of-history", readline_cmd_t::beginning_of_history},
{L"beginning-of-line", readline_cmd_t::beginning_of_line},
{L"cancel", readline_cmd_t::cancel},
{L"cancel-commandline", readline_cmd_t::cancel_commandline},
{L"capitalize-word", readline_cmd_t::capitalize_word},
{L"complete", readline_cmd_t::complete},
{L"complete-and-search", readline_cmd_t::complete_and_search},
{L"delete-char", readline_cmd_t::delete_char},
{L"delete-or-exit", readline_cmd_t::delete_or_exit},
{L"down-line", readline_cmd_t::down_line},
{L"downcase-word", readline_cmd_t::downcase_word},
{L"end-of-buffer", readline_cmd_t::end_of_buffer},
{L"end-of-history", readline_cmd_t::end_of_history},
{L"end-of-line", readline_cmd_t::end_of_line},
{L"end-selection", readline_cmd_t::end_selection},
{L"end-undo-group", readline_cmd_t::end_undo_group},
{L"execute", readline_cmd_t::execute},
{L"exit", readline_cmd_t::exit},
{L"expand-abbr", readline_cmd_t::expand_abbr},
{L"force-repaint", readline_cmd_t::force_repaint},
{L"forward-bigword", readline_cmd_t::forward_bigword},
{L"forward-char", readline_cmd_t::forward_char},
{L"forward-jump", readline_cmd_t::forward_jump},
{L"forward-jump-till", readline_cmd_t::forward_jump_till},
{L"forward-single-char", readline_cmd_t::forward_single_char},
{L"forward-word", readline_cmd_t::forward_word},
{L"history-pager", readline_cmd_t::history_pager},
{L"history-prefix-search-backward", readline_cmd_t::history_prefix_search_backward},
{L"history-prefix-search-forward", readline_cmd_t::history_prefix_search_forward},
{L"history-search-backward", readline_cmd_t::history_search_backward},
{L"history-search-forward", readline_cmd_t::history_search_forward},
{L"history-token-search-backward", readline_cmd_t::history_token_search_backward},
{L"history-token-search-forward", readline_cmd_t::history_token_search_forward},
{L"insert-line-over", readline_cmd_t::insert_line_over},
{L"insert-line-under", readline_cmd_t::insert_line_under},
{L"kill-bigword", readline_cmd_t::kill_bigword},
{L"kill-inner-line", readline_cmd_t::kill_inner_line},
{L"kill-line", readline_cmd_t::kill_line},
{L"kill-selection", readline_cmd_t::kill_selection},
{L"kill-whole-line", readline_cmd_t::kill_whole_line},
{L"kill-word", readline_cmd_t::kill_word},
{L"nextd-or-forward-word", readline_cmd_t::nextd_or_forward_word},
{L"or", readline_cmd_t::func_or},
{L"pager-toggle-search", readline_cmd_t::pager_toggle_search},
{L"prevd-or-backward-word", readline_cmd_t::prevd_or_backward_word},
{L"redo", readline_cmd_t::redo},
{L"repaint", readline_cmd_t::repaint},
{L"repaint-mode", readline_cmd_t::repaint_mode},
{L"repeat-jump", readline_cmd_t::repeat_jump},
{L"repeat-jump-reverse", readline_cmd_t::reverse_repeat_jump},
{L"self-insert", readline_cmd_t::self_insert},
{L"self-insert-notfirst", readline_cmd_t::self_insert_notfirst},
{L"suppress-autosuggestion", readline_cmd_t::suppress_autosuggestion},
{L"swap-selection-start-stop", readline_cmd_t::swap_selection_start_stop},
{L"togglecase-char", readline_cmd_t::togglecase_char},
{L"togglecase-selection", readline_cmd_t::togglecase_selection},
{L"transpose-chars", readline_cmd_t::transpose_chars},
{L"transpose-words", readline_cmd_t::transpose_words},
{L"undo", readline_cmd_t::undo},
{L"up-line", readline_cmd_t::up_line},
{L"upcase-word", readline_cmd_t::upcase_word},
{L"yank", readline_cmd_t::yank},
{L"yank-pop", readline_cmd_t::yank_pop},
};
ASSERT_SORTED_BY_NAME(input_function_metadata);
static_assert(sizeof(input_function_metadata) / sizeof(input_function_metadata[0]) ==
input_function_count,
"input_function_metadata size mismatch with input_common. Did you forget to update "
"input_function_metadata?");
wcstring describe_char(wint_t c) {
if (c < R_END_INPUT_FUNCTIONS) {
return format_string(L"%02x (%ls)", c, input_function_metadata[c].name);
}
return format_string(L"%02x", c);
}
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using mapping_list_t = std::vector<input_mapping_t>;
input_mapping_set_t::input_mapping_set_t() = default;
input_mapping_set_t::~input_mapping_set_t() = default;
acquired_lock<input_mapping_set_t> input_mappings() {
static owning_lock<input_mapping_set_t> s_mappings{input_mapping_set_t()};
return s_mappings.acquire();
}
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/// Terminfo map list.
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static latch_t<std::vector<terminfo_mapping_t>> s_terminfo_mappings;
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/// \return the input terminfo.
static std::vector<terminfo_mapping_t> create_input_terminfo();
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/// Return the current bind mode.
static wcstring input_get_bind_mode(const environment_t &vars) {
auto mode = vars.get(FISH_BIND_MODE_VAR);
return mode ? mode->as_string() : DEFAULT_BIND_MODE;
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}
/// Set the current bind mode.
static void input_set_bind_mode(parser_t &parser, const wcstring &bm) {
// Only set this if it differs to not execute variable handlers all the time.
// modes may not be empty - empty is a sentinel value meaning to not change the mode
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assert(!bm.empty());
if (input_get_bind_mode(parser.vars()) != bm) {
// Must send events here - see #6653.
parser.set_var_and_fire(FISH_BIND_MODE_VAR, ENV_GLOBAL, bm);
}
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}
/// Returns the arity of a given input function.
static int input_function_arity(readline_cmd_t function) {
switch (function) {
case readline_cmd_t::forward_jump:
case readline_cmd_t::backward_jump:
case readline_cmd_t::forward_jump_till:
case readline_cmd_t::backward_jump_till:
return 1;
default:
return 0;
}
}
/// Helper function to compare the lengths of sequences.
static bool length_is_greater_than(const input_mapping_t &m1, const input_mapping_t &m2) {
return m1.seq.size() > m2.seq.size();
}
static bool specification_order_is_less_than(const input_mapping_t &m1, const input_mapping_t &m2) {
return m1.specification_order < m2.specification_order;
}
/// Inserts an input mapping at the correct position. We sort them in descending order by length, so
/// that we test longer sequences first.
static void input_mapping_insert_sorted(mapping_list_t &ml, input_mapping_t new_mapping) {
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auto loc = std::lower_bound(ml.begin(), ml.end(), new_mapping, length_is_greater_than);
ml.insert(loc, std::move(new_mapping));
}
/// Adds an input mapping.
void input_mapping_set_t::add(wcstring sequence, const wchar_t *const *commands,
size_t commands_len, const wchar_t *mode, const wchar_t *sets_mode,
bool user) {
assert(commands && mode && sets_mode && "Null parameter");
// Clear cached mappings.
all_mappings_cache_.reset();
// Remove existing mappings with this sequence.
const std::vector<wcstring> commands_vector(commands, commands + commands_len);
mapping_list_t &ml = user ? mapping_list_ : preset_mapping_list_;
for (input_mapping_t &m : ml) {
if (m.seq == sequence && m.mode == mode) {
m.commands = commands_vector;
m.sets_mode = sets_mode;
return;
}
}
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// Add a new mapping, using the next order.
input_mapping_t new_mapping =
input_mapping_t(std::move(sequence), commands_vector, mode, sets_mode);
input_mapping_insert_sorted(ml, std::move(new_mapping));
}
void input_mapping_set_t::add(wcstring sequence, const wchar_t *command, const wchar_t *mode,
const wchar_t *sets_mode, bool user) {
input_mapping_set_t::add(std::move(sequence), &command, 1, mode, sets_mode, user);
}
/// Set up arrays used by readch to detect escape sequences for special keys and perform related
/// initializations for our input subsystem.
void init_input() {
ASSERT_IS_MAIN_THREAD();
if (s_terminfo_mappings.is_set()) return;
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s_terminfo_mappings = create_input_terminfo();
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auto input_mapping = input_mappings();
// If we have no keybindings, add a few simple defaults.
if (input_mapping->preset_mapping_list_.empty()) {
input_mapping->add(L"", L"self-insert", DEFAULT_BIND_MODE, DEFAULT_BIND_MODE, false);
input_mapping->add(L"\n", L"execute", DEFAULT_BIND_MODE, DEFAULT_BIND_MODE, false);
input_mapping->add(L"\r", L"execute", DEFAULT_BIND_MODE, DEFAULT_BIND_MODE, false);
input_mapping->add(L"\t", L"complete", DEFAULT_BIND_MODE, DEFAULT_BIND_MODE, false);
input_mapping->add(L"\x3", L"cancel-commandline", DEFAULT_BIND_MODE, DEFAULT_BIND_MODE,
false);
input_mapping->add(L"\x4", L"exit", DEFAULT_BIND_MODE, DEFAULT_BIND_MODE, false);
input_mapping->add(L"\x5", L"bind", DEFAULT_BIND_MODE, DEFAULT_BIND_MODE, false);
// ctrl-s
input_mapping->add(L"\x13", L"pager-toggle-search", DEFAULT_BIND_MODE, DEFAULT_BIND_MODE,
false);
// ctrl-u
input_mapping->add(L"\x15", L"backward-kill-line", DEFAULT_BIND_MODE, DEFAULT_BIND_MODE,
false);
// del/backspace
input_mapping->add(L"\x7f", L"backward-delete-char", DEFAULT_BIND_MODE, DEFAULT_BIND_MODE,
false);
// Arrows - can't have functions, so *-or-search isn't available.
input_mapping->add(L"\x1B[A", L"up-line", DEFAULT_BIND_MODE, DEFAULT_BIND_MODE, false);
input_mapping->add(L"\x1B[B", L"down-line", DEFAULT_BIND_MODE, DEFAULT_BIND_MODE, false);
input_mapping->add(L"\x1B[C", L"forward-char", DEFAULT_BIND_MODE, DEFAULT_BIND_MODE, false);
input_mapping->add(L"\x1B[D", L"backward-char", DEFAULT_BIND_MODE, DEFAULT_BIND_MODE,
false);
// emacs-style ctrl-p/n/b/f
input_mapping->add(L"\x10", L"up-line", DEFAULT_BIND_MODE, DEFAULT_BIND_MODE, false);
input_mapping->add(L"\x0e", L"down-line", DEFAULT_BIND_MODE, DEFAULT_BIND_MODE, false);
input_mapping->add(L"\x02", L"backward-char", DEFAULT_BIND_MODE, DEFAULT_BIND_MODE, false);
input_mapping->add(L"\x06", L"forward-char", DEFAULT_BIND_MODE, DEFAULT_BIND_MODE, false);
}
}
inputter_t::inputter_t(parser_t &parser, int in)
: input_event_queue_t(in), parser_(parser.shared()) {}
void inputter_t::prepare_to_select() /* override */ {
// Fire any pending events and reap stray processes, including printing exit status messages.
auto &parser = *this->parser_;
event_fire_delayed(parser);
if (job_reap(parser, true)) reader_schedule_prompt_repaint();
}
void inputter_t::select_interrupted() /* override */ {
// Readline commands may be bound to \cc which also sets the cancel flag.
// See #6937, #8125.
signal_clear_cancel();
// Fire any pending events and reap stray processes, including printing exit status messages.
auto &parser = *this->parser_;
event_fire_delayed(parser);
if (job_reap(parser, true)) reader_schedule_prompt_repaint();
// Tell the reader an event occurred.
if (reader_reading_interrupted()) {
auto vintr = shell_modes.c_cc[VINTR];
if (vintr != 0) {
this->push_front(char_event_t{vintr});
}
return;
}
this->push_front(char_event_t{char_event_type_t::check_exit});
}
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void inputter_t::uvar_change_notified() /* override */ {
this->parser_->sync_uvars_and_fire(true /* always */);
}
void inputter_t::function_push_arg(wchar_t arg) { input_function_args_.push_back(arg); }
wchar_t inputter_t::function_pop_arg() {
assert(!input_function_args_.empty() && "function_pop_arg underflow");
auto result = input_function_args_.back();
input_function_args_.pop_back();
return result;
}
void inputter_t::function_push_args(readline_cmd_t code) {
int arity = input_function_arity(code);
assert(event_storage_.empty() && "event_storage_ should be empty");
auto &skipped = event_storage_;
for (int i = 0; i < arity; i++) {
// Skip and queue up any function codes. See issue #2357.
wchar_t arg{};
for (;;) {
auto evt = this->readch();
if (evt.is_char()) {
arg = evt.get_char();
break;
}
skipped.push_back(evt);
}
function_push_arg(arg);
}
// Push the function codes back into the input stream.
this->insert_front(skipped.begin(), skipped.end());
event_storage_.clear();
}
/// Perform the action of the specified binding. allow_commands controls whether fish commands
/// should be executed, or should be deferred until later.
void inputter_t::mapping_execute(const input_mapping_t &m,
const command_handler_t &command_handler) {
// has_functions: there are functions that need to be put on the input queue
// has_commands: there are shell commands that need to be evaluated
bool has_commands = false, has_functions = false;
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for (const wcstring &cmd : m.commands) {
if (input_function_get_code(cmd)) {
has_functions = true;
} else {
has_commands = true;
}
if (has_functions && has_commands) {
break;
}
}
// !has_functions && !has_commands: only set bind mode
if (!has_commands && !has_functions) {
if (!m.sets_mode.empty()) input_set_bind_mode(*parser_, m.sets_mode);
return;
}
if (has_commands && !command_handler) {
// We don't want to run commands yet. Put the characters back and return check_exit.
this->insert_front(m.seq.cbegin(), m.seq.cend());
this->push_front(char_event_type_t::check_exit);
return; // skip the input_set_bind_mode
} else if (has_functions && !has_commands) {
// Functions are added at the head of the input queue.
for (auto it = m.commands.rbegin(), end = m.commands.rend(); it != end; ++it) {
readline_cmd_t code = input_function_get_code(*it).value();
function_push_args(code);
this->push_front(char_event_t(code, m.seq));
}
} else if (has_commands && !has_functions) {
// Execute all commands.
//
// FIXME(snnw): if commands add stuff to input queue (e.g. commandline -f execute), we won't
// see that until all other commands have also been run.
command_handler(m.commands);
this->push_front(char_event_type_t::check_exit);
} else {
// Invalid binding, mixed commands and functions. We would need to execute these one by
// one.
this->push_front(char_event_type_t::check_exit);
}
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// Empty bind mode indicates to not reset the mode (#2871)
if (!m.sets_mode.empty()) input_set_bind_mode(*parser_, m.sets_mode);
}
void inputter_t::queue_char(const char_event_t &ch) {
if (ch.is_readline()) {
function_push_args(ch.get_readline());
}
this->push_back(ch);
}
/// A class which allows accumulating input events, or returns them to the queue.
/// This contains a list of events which have been dequeued, and a current index into that list.
class event_queue_peeker_t {
public:
explicit event_queue_peeker_t(input_event_queue_t &event_queue) : event_queue_(event_queue) {}
/// \return the next event.
char_event_t next() {
assert(idx_ <= peeked_.size() && "Index must not be larger than dequeued event count");
if (idx_ == peeked_.size()) {
auto event = event_queue_.readch();
peeked_.push_back(event);
}
return peeked_.at(idx_++);
}
/// Check if the next event is the given character. This advances the index on success only.
/// If \p timed is set, then return false if this (or any other) character had a timeout.
bool next_is_char(wchar_t c, bool timed = false) {
assert(idx_ <= peeked_.size() && "Index must not be larger than dequeued event count");
// See if we had a timeout already.
if (timed && had_timeout_) {
return false;
}
// Grab a new event if we have exhausted what we have already peeked.
// Use either readch or readch_timed, per our param.
if (idx_ == peeked_.size()) {
char_event_t newevt{L'\0'};
if (!timed) {
newevt = event_queue_.readch();
} else if (auto mevt = event_queue_.readch_timed()) {
newevt = mevt.acquire();
} else {
had_timeout_ = true;
return false;
}
peeked_.push_back(newevt);
}
// Now we have peeked far enough; check the event.
// If it matches the char, then increment the index.
if (peeked_.at(idx_).maybe_char() == c) {
idx_++;
return true;
}
return false;
}
/// \return the current index.
size_t len() const { return idx_; }
/// Consume all events up to the current index.
/// Remaining events are returned to the queue.
void consume() {
event_queue_.insert_front(peeked_.cbegin() + idx_, peeked_.cend());
peeked_.clear();
idx_ = 0;
}
/// Test if any of our peeked events are readline or check_exit.
bool char_sequence_interrupted() const {
for (const auto &evt : peeked_) {
if (evt.is_readline() || evt.is_check_exit()) return true;
}
return false;
}
/// Reset our index back to 0.
void restart() { idx_ = 0; }
~event_queue_peeker_t() {
assert(idx_ == 0 && "Events left on the queue - missing restart or consume?");
consume();
}
private:
/// The list of events which have been dequeued.
std::vector<char_event_t> peeked_{};
/// If set, then some previous timed event timed out.
bool had_timeout_{false};
/// The current index. This never exceeds peeked_.size().
size_t idx_{0};
/// The queue from which to read more events.
input_event_queue_t &event_queue_;
};
/// Try reading a mouse-tracking CSI sequence, using the given \p peeker.
/// Events are left on the peeker and the caller must restart or consume it.
/// \return true if matched, false if not.
static bool have_mouse_tracking_csi(event_queue_peeker_t *peeker) {
// Maximum length of any CSI is NPAR (which is nominally 16), although this does not account for
// user input intermixed with pseudo input generated by the tty emulator.
// Check for the CSI first.
if (!peeker->next_is_char(L'\x1b') || !peeker->next_is_char(L'[', true /* timed */)) {
return false;
}
auto next = peeker->next().maybe_char();
size_t length = 0;
if (next == L'M') {
// Generic X10 or modified VT200 sequence. It doesn't matter which, they're both 6 chars
// (although in mode 1005, the characters may be unicode and not necessarily just one byte
// long) reporting the button that was clicked and its location.
length = 6;
} else if (next == L'<') {
// Extended (SGR/1006) mouse reporting mode, with semicolon-separated parameters for button
// code, Px, and Py, ending with 'M' for button press or 'm' for button release.
while (true) {
next = peeker->next().maybe_char();
if (next == L'M' || next == L'm') {
// However much we've read, we've consumed the CSI in its entirety.
length = peeker->len();
break;
}
if (peeker->len() >= 16) {
// This is likely a malformed mouse-reporting CSI but we can't do anything about it.
return false;
}
}
} else if (next == L't') {
// VT200 button released in mouse highlighting mode at valid text location. 5 chars.
length = 5;
} else if (next == L'T') {
// VT200 button released in mouse highlighting mode past end-of-line. 9 characters.
length = 9;
} else {
return false;
}
// Consume however many characters it takes to prevent the mouse tracking sequence from reaching
// the prompt, dependent on the class of mouse reporting as detected above.
while (peeker->len() < length) {
(void)peeker->next();
}
return true;
}
/// \return true if a given \p peeker matches a given sequence of char events given by \p str.
static bool try_peek_sequence(event_queue_peeker_t *peeker, const wcstring &str) {
assert(!str.empty() && "Empty string passed to try_peek_sequence");
wchar_t prev = L'\0';
for (wchar_t c : str) {
// If we just read an escape, we need to add a timeout for the next char,
// to distinguish between the actual escape key and an "alt"-modifier.
bool timed = prev == L'\x1B';
if (!peeker->next_is_char(c, timed)) {
return false;
}
prev = c;
}
return true;
}
/// \return the first mapping that matches, walking first over the user's mapping list, then the
/// preset list.
/// \return none if nothing matches, or if we may have matched a longer sequence but it was
/// interrupted by a readline event.
maybe_t<input_mapping_t> inputter_t::find_mapping(event_queue_peeker_t *peeker) {
const input_mapping_t *generic = nullptr;
const auto &vars = parser_->vars();
const wcstring bind_mode = input_get_bind_mode(vars);
const input_mapping_t *escape = nullptr;
auto ml = input_mappings()->all_mappings();
for (const auto &m : *ml) {
if (m.mode != bind_mode) {
continue;
}
// Defer generic mappings until the end.
if (m.is_generic()) {
if (!generic) generic = &m;
continue;
}
if (try_peek_sequence(peeker, m.seq)) {
// A binding for just escape should also be deferred
// so escape sequences take precedence.
if (m.seq == L"\x1B") {
if (!escape) {
escape = &m;
}
} else {
return m;
}
}
peeker->restart();
}
if (peeker->char_sequence_interrupted()) {
// We might have matched a longer sequence, but we were interrupted, e.g. by a signal.
FLOG(reader, "torn sequence, rearranging events");
return none();
}
if (escape) {
// We need to reconsume the escape.
peeker->next();
return *escape;
}
return generic ? maybe_t<input_mapping_t>(*generic) : none();
}
void inputter_t::mapping_execute_matching_or_generic(const command_handler_t &command_handler) {
event_queue_peeker_t peeker(*this);
// Check for mouse-tracking CSI before mappings to prevent the generic mapping handler from
// taking over.
if (have_mouse_tracking_csi(&peeker)) {
// fish recognizes but does not actually support mouse reporting. We never turn it on, and
// it's only ever enabled if a program we spawned enabled it and crashed or forgot to turn
// it off before exiting. We swallow the events to prevent garbage from piling up at the
// prompt, but don't do anything further with the received codes. To prevent this from
// breaking user interaction with the tty emulator, wasting CPU, and adding latency to the
// event queue, we turn off mouse reporting here.
//
// Since this is only called when we detect an incoming mouse reporting payload, we know the
// terminal emulator supports the xterm ANSI extensions for mouse reporting and can safely
// issue this without worrying about termcap.
FLOGF(reader, "Disabling mouse tracking");
// We can't/shouldn't directly manipulate stdout from `input.cpp`, so request the execution
// of a helper function to disable mouse tracking.
// writembs(outputter_t::stdoutput(), "\x1B[?1000l");
peeker.consume();
this->push_front(char_event_t(readline_cmd_t::disable_mouse_tracking, L""));
return;
}
peeker.restart();
// Check for ordinary mappings.
if (auto mapping = find_mapping(&peeker)) {
peeker.consume();
mapping_execute(*mapping, command_handler);
return;
}
peeker.restart();
if (peeker.char_sequence_interrupted()) {
// This may happen if we received a signal in the middle of an escape sequence or other
// multi-char binding. Move these non-char events to the front of the queue, handle them
// first, and then later we'll return and try the sequence again. See #8628.
peeker.consume();
this->promote_interruptions_to_front();
return;
}
FLOGF(reader, L"no generic found, ignoring char...");
auto evt = peeker.next();
peeker.consume();
}
/// Helper function. Picks through the queue of incoming characters until we get to one that's not a
/// readline function.
char_event_t inputter_t::read_characters_no_readline() {
assert(event_storage_.empty() && "saved_events_storage should be empty");
auto &saved_events = event_storage_;
char_event_t evt_to_return{0};
for (;;) {
auto evt = this->readch();
if (evt.is_readline()) {
saved_events.push_back(evt);
} else {
evt_to_return = evt;
break;
}
}
// Restore any readline functions
this->insert_front(saved_events.cbegin(), saved_events.cend());
event_storage_.clear();
return evt_to_return;
}
char_event_t inputter_t::read_char(const command_handler_t &command_handler) {
// Clear the interrupted flag.
reader_reset_interrupted();
// Search for sequence in mapping tables.
while (true) {
auto evt = this->readch();
if (evt.is_readline()) {
switch (evt.get_readline()) {
case readline_cmd_t::self_insert:
case readline_cmd_t::self_insert_notfirst: {
// Typically self-insert is generated by the generic (empty) binding.
// However if it is generated by a real sequence, then insert that sequence.
this->insert_front(evt.seq.cbegin(), evt.seq.cend());
// Issue #1595: ensure we only insert characters, not readline functions. The
// common case is that this will be empty.
char_event_t res = read_characters_no_readline();
// Hackish: mark the input style.
res.input_style = evt.get_readline() == readline_cmd_t::self_insert_notfirst
? char_input_style_t::notfirst
: char_input_style_t::normal;
return res;
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}
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case readline_cmd_t::func_and:
case readline_cmd_t::func_or: {
// If previous function has correct status, we keep reading tokens
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if (evt.get_readline() == readline_cmd_t::func_and) {
// Don't return immediately, we might need to handle it here - like
// self-insert.
if (function_status_) continue;
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} else {
if (!function_status_) continue;
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}
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// Else we flush remaining tokens
do {
evt = this->readch();
} while (evt.is_readline());
this->push_front(evt);
return readch();
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}
default: {
return evt;
}
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}
} else if (evt.is_eof()) {
// If we have EOF, we need to immediately quit.
// There's no need to go through the input functions.
return evt;
} else if (evt.is_check_exit()) {
// Allow the reader to check for exit conditions.
return evt;
} else {
assert(evt.is_char() && "Should be char event");
this->push_front(evt);
mapping_execute_matching_or_generic(command_handler);
// Regarding allow_commands, we're in a loop, but if a fish command is executed,
// check_exit is unread, so the next pass through the loop we'll break out and return
// it.
}
}
}
std::vector<input_mapping_name_t> input_mapping_set_t::get_names(bool user) const {
// Sort the mappings by the user specification order, so we can return them in the same order
// that the user specified them in.
std::vector<input_mapping_t> local_list = user ? mapping_list_ : preset_mapping_list_;
std::sort(local_list.begin(), local_list.end(), specification_order_is_less_than);
std::vector<input_mapping_name_t> result;
result.reserve(local_list.size());
for (const auto &m : local_list) {
result.push_back((input_mapping_name_t){m.seq, m.mode});
}
return result;
}
void input_mapping_set_t::clear(const wchar_t *mode, bool user) {
all_mappings_cache_.reset();
mapping_list_t &ml = user ? mapping_list_ : preset_mapping_list_;
auto should_erase = [=](const input_mapping_t &m) { return mode == nullptr || mode == m.mode; };
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ml.erase(std::remove_if(ml.begin(), ml.end(), should_erase), ml.end());
}
bool input_mapping_set_t::erase(const wcstring &sequence, const wcstring &mode, bool user) {
// Clear cached mappings.
all_mappings_cache_.reset();
bool result = false;
mapping_list_t &ml = user ? mapping_list_ : preset_mapping_list_;
for (auto it = ml.begin(), end = ml.end(); it != end; ++it) {
if (sequence == it->seq && mode == it->mode) {
ml.erase(it);
result = true;
break;
}
}
return result;
}
bool input_mapping_set_t::get(const wcstring &sequence, const wcstring &mode,
std::vector<wcstring> *out_cmds, bool user,
wcstring *out_sets_mode) const {
bool result = false;
const auto &ml = user ? mapping_list_ : preset_mapping_list_;
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for (const input_mapping_t &m : ml) {
if (sequence == m.seq && mode == m.mode) {
*out_cmds = m.commands;
*out_sets_mode = m.sets_mode;
result = true;
break;
}
}
return result;
}
std::shared_ptr<const mapping_list_t> input_mapping_set_t::all_mappings() {
// Populate the cache if needed.
if (!all_mappings_cache_) {
mapping_list_t all_mappings = mapping_list_;
all_mappings.insert(all_mappings.end(), preset_mapping_list_.begin(),
preset_mapping_list_.end());
all_mappings_cache_ = std::make_shared<const mapping_list_t>(std::move(all_mappings));
}
return all_mappings_cache_;
}
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/// Create a list of terminfo mappings.
static std::vector<terminfo_mapping_t> create_input_terminfo() {
assert(CURSES_INITIALIZED);
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if (!cur_term) return {}; // setupterm() failed so we can't referency any key definitions
#define TERMINFO_ADD(key) \
{ (L## #key) + 4, key }
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return {
TERMINFO_ADD(key_a1), TERMINFO_ADD(key_a3), TERMINFO_ADD(key_b2),
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TERMINFO_ADD(key_backspace), TERMINFO_ADD(key_beg), TERMINFO_ADD(key_btab),
TERMINFO_ADD(key_c1), TERMINFO_ADD(key_c3), TERMINFO_ADD(key_cancel),
TERMINFO_ADD(key_catab), TERMINFO_ADD(key_clear), TERMINFO_ADD(key_close),
TERMINFO_ADD(key_command), TERMINFO_ADD(key_copy), TERMINFO_ADD(key_create),
TERMINFO_ADD(key_ctab), TERMINFO_ADD(key_dc), TERMINFO_ADD(key_dl), TERMINFO_ADD(key_down),
TERMINFO_ADD(key_eic), TERMINFO_ADD(key_end), TERMINFO_ADD(key_enter),
TERMINFO_ADD(key_eol), TERMINFO_ADD(key_eos), TERMINFO_ADD(key_exit), TERMINFO_ADD(key_f0),
TERMINFO_ADD(key_f1), TERMINFO_ADD(key_f2), TERMINFO_ADD(key_f3), TERMINFO_ADD(key_f4),
TERMINFO_ADD(key_f5), TERMINFO_ADD(key_f6), TERMINFO_ADD(key_f7), TERMINFO_ADD(key_f8),
TERMINFO_ADD(key_f9), TERMINFO_ADD(key_f10), TERMINFO_ADD(key_f11), TERMINFO_ADD(key_f12),
TERMINFO_ADD(key_f13), TERMINFO_ADD(key_f14), TERMINFO_ADD(key_f15), TERMINFO_ADD(key_f16),
TERMINFO_ADD(key_f17), TERMINFO_ADD(key_f18), TERMINFO_ADD(key_f19), TERMINFO_ADD(key_f20),
// Note key_f21 through key_f63 are available but no actual keyboard supports them.
TERMINFO_ADD(key_find), TERMINFO_ADD(key_help), TERMINFO_ADD(key_home),
TERMINFO_ADD(key_ic), TERMINFO_ADD(key_il), TERMINFO_ADD(key_left), TERMINFO_ADD(key_ll),
TERMINFO_ADD(key_mark), TERMINFO_ADD(key_message), TERMINFO_ADD(key_move),
TERMINFO_ADD(key_next), TERMINFO_ADD(key_npage), TERMINFO_ADD(key_open),
TERMINFO_ADD(key_options), TERMINFO_ADD(key_ppage), TERMINFO_ADD(key_previous),
TERMINFO_ADD(key_print), TERMINFO_ADD(key_redo), TERMINFO_ADD(key_reference),
TERMINFO_ADD(key_refresh), TERMINFO_ADD(key_replace), TERMINFO_ADD(key_restart),
TERMINFO_ADD(key_resume), TERMINFO_ADD(key_right), TERMINFO_ADD(key_save),
TERMINFO_ADD(key_sbeg), TERMINFO_ADD(key_scancel), TERMINFO_ADD(key_scommand),
TERMINFO_ADD(key_scopy), TERMINFO_ADD(key_screate), TERMINFO_ADD(key_sdc),
TERMINFO_ADD(key_sdl), TERMINFO_ADD(key_select), TERMINFO_ADD(key_send),
TERMINFO_ADD(key_seol), TERMINFO_ADD(key_sexit), TERMINFO_ADD(key_sf),
TERMINFO_ADD(key_sfind), TERMINFO_ADD(key_shelp), TERMINFO_ADD(key_shome),
TERMINFO_ADD(key_sic), TERMINFO_ADD(key_sleft), TERMINFO_ADD(key_smessage),
TERMINFO_ADD(key_smove), TERMINFO_ADD(key_snext), TERMINFO_ADD(key_soptions),
TERMINFO_ADD(key_sprevious), TERMINFO_ADD(key_sprint), TERMINFO_ADD(key_sr),
TERMINFO_ADD(key_sredo), TERMINFO_ADD(key_sreplace), TERMINFO_ADD(key_sright),
TERMINFO_ADD(key_srsume), TERMINFO_ADD(key_ssave), TERMINFO_ADD(key_ssuspend),
TERMINFO_ADD(key_stab), TERMINFO_ADD(key_sundo), TERMINFO_ADD(key_suspend),
TERMINFO_ADD(key_undo), TERMINFO_ADD(key_up),
// We introduce our own name for the string containing only the nul character - see
// #3189. This can typically be generated via control-space.
terminfo_mapping_t(k_nul_mapping_name, std::string{'\0'})};
#undef TERMINFO_ADD
}
bool input_terminfo_get_sequence(const wcstring &name, wcstring *out_seq) {
assert(s_terminfo_mappings.is_set());
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for (const terminfo_mapping_t &m : *s_terminfo_mappings) {
if (name == m.name) {
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// Found the mapping.
if (!m.seq) {
errno = EILSEQ;
return false;
} else {
*out_seq = str2wcstring(*m.seq);
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return true;
}
}
}
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errno = ENOENT;
return false;
}
bool input_terminfo_get_name(const wcstring &seq, wcstring *out_name) {
assert(s_terminfo_mappings.is_set());
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for (const terminfo_mapping_t &m : *s_terminfo_mappings) {
if (m.seq && seq == str2wcstring(*m.seq)) {
out_name->assign(m.name);
return true;
}
}
return false;
}
std::vector<wcstring> input_terminfo_get_names(bool skip_null) {
assert(s_terminfo_mappings.is_set());
std::vector<wcstring> result;
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const auto &mappings = *s_terminfo_mappings;
result.reserve(mappings.size());
for (const terminfo_mapping_t &m : mappings) {
if (skip_null && !m.seq) {
continue;
}
result.emplace_back(m.name);
}
return result;
}
const std::vector<wcstring> &input_function_get_names() {
// The list and names of input functions are hard-coded and never change
static std::vector<wcstring> result = ([&]() {
std::vector<wcstring> result;
result.reserve(input_function_count);
for (const auto &md : input_function_metadata) {
if (md.name[0]) {
result.push_back(md.name);
}
}
return result;
})();
return result;
}
maybe_t<readline_cmd_t> input_function_get_code(const wcstring &name) {
// `input_function_metadata` is required to be kept in asciibetical order, making it OK to do
// a binary search for the matching name.
if (const input_function_metadata_t *md = get_by_sorted_name(name, input_function_metadata)) {
return md->code;
}
return none();
}