// Copyright 2016 Joe Wilm, The Alacritty Project Contributors // // Licensed under the Apache License, Version 2.0 (the "License"); // you may not use this file except in compliance with the License. // You may obtain a copy of the License at // // http://www.apache.org/licenses/LICENSE-2.0 // // Unless required by applicable law or agreed to in writing, software // distributed under the License is distributed on an "AS IS" BASIS, // WITHOUT WARRANTIES OR CONDITIONS OF ANY KIND, either express or implied. // See the License for the specific language governing permissions and // limitations under the License. // //! Handle input from glutin //! //! Certain key combinations should send some escape sequence back to the pty. //! In order to figure that out, state about which modifier keys are pressed //! needs to be tracked. Additionally, we need a bit of a state machine to //! determine what to do when a non-modifier key is pressed. use std::borrow::Cow; use std::mem; use std::process::Command; use std::time::Instant; use std::os::unix::process::CommandExt; use copypasta::{Clipboard, Load, Buffer}; use glutin::{ElementState, VirtualKeyCode, MouseButton, TouchPhase, MouseScrollDelta, ModifiersState}; use config; use event::{ClickState, Mouse}; use index::{Line, Column, Side, Point}; use term::SizeInfo; use term::mode::TermMode; use util::fmt::Red; /// Processes input from glutin. /// /// An escape sequence may be emitted in case specific keys or key combinations /// are activated. /// /// TODO also need terminal state when processing input pub struct Processor<'a, A: 'a> { pub key_bindings: &'a [KeyBinding], pub mouse_bindings: &'a [MouseBinding], pub mouse_config: &'a config::Mouse, pub scrolling_config: &'a config::Scrolling, pub ctx: A, } pub trait ActionContext { fn write_to_pty>>(&mut self, B); fn terminal_mode(&self) -> TermMode; fn size_info(&self) -> SizeInfo; fn copy_selection(&self, Buffer); fn clear_selection(&mut self); fn update_selection(&mut self, point: Point, side: Side); fn simple_selection(&mut self, point: Point, side: Side); fn semantic_selection(&mut self, point: Point); fn line_selection(&mut self, point: Point); fn mouse_mut(&mut self) -> &mut Mouse; fn mouse_coords(&self) -> Option; fn received_count(&mut self) -> &mut usize; fn suppress_chars(&mut self) -> &mut bool; fn last_modifiers(&mut self) -> &mut ModifiersState; fn change_font_size(&mut self, delta: i8); fn reset_font_size(&mut self); fn scroll(&mut self, count: isize) {} fn reset_scroll(&mut self) {} } /// Describes a state and action to take in that state /// /// This is the shared component of `MouseBinding` and `KeyBinding` #[derive(Debug, Clone)] pub struct Binding { /// Modifier keys required to activate binding pub mods: ModifiersState, /// String to send to pty if mods and mode match pub action: Action, /// Terminal mode required to activate binding pub mode: TermMode, /// excluded terminal modes where the binding won't be activated pub notmode: TermMode, /// This property is used as part of the trigger detection code. /// /// For example, this might be a key like "G", or a mouse button. pub trigger: T, } /// Bindings that are triggered by a keyboard key pub type KeyBinding = Binding; /// Bindings that are triggered by a mouse button pub type MouseBinding = Binding; impl Binding { #[inline] fn is_triggered_by( &self, mode: TermMode, mods: &ModifiersState, input: &T ) -> bool { // Check input first since bindings are stored in one big list. This is // the most likely item to fail so prioritizing it here allows more // checks to be short circuited. self.trigger == *input && self.mode_matches(&mode) && self.not_mode_matches(&mode) && self.mods_match(mods) } } impl Binding { /// Execute the action associate with this binding #[inline] fn execute(&self, ctx: &mut A) { self.action.execute(ctx) } #[inline] fn mode_matches(&self, mode: &TermMode) -> bool { self.mode.is_empty() || mode.intersects(self.mode) } #[inline] fn not_mode_matches(&self, mode: &TermMode) -> bool { self.notmode.is_empty() || !mode.intersects(self.notmode) } /// Check that two mods descriptions for equivalence /// /// Optimized to use single check instead of four (one per modifier) #[inline] fn mods_match(&self, mods: &ModifiersState) -> bool { debug_assert!(4 == mem::size_of::()); unsafe { mem::transmute_copy::<_, u32>(&self.mods) == mem::transmute_copy::<_, u32>(mods) } } } #[derive(Debug, Clone)] pub enum Action { /// Write an escape sequence Esc(String), /// Paste contents of system clipboard Paste, // Store current selection into clipboard Copy, /// Paste contents of selection buffer PasteSelection, /// Increase font size IncreaseFontSize, /// Decrease font size DecreaseFontSize, /// Reset font size to the config value ResetFontSize, /// Run given command Command(String, Vec), /// Quits Alacritty. Quit, } impl Action { #[inline] fn execute(&self, ctx: &mut A) { match *self { Action::Esc(ref s) => { ctx.write_to_pty(s.clone().into_bytes()) }, Action::Copy => { ctx.copy_selection(Buffer::Primary); }, Action::Paste => { Clipboard::new() .and_then(|clipboard| clipboard.load_primary() ) .map(|contents| { self.paste(ctx, contents) }) .unwrap_or_else(|err| { eprintln!("Error loading data from clipboard. {}", Red(err)); }); }, Action::PasteSelection => { // Only paste if mouse events are not captured by an application let mouse_modes = TermMode::MOUSE_REPORT_CLICK | TermMode::MOUSE_DRAG | TermMode::MOUSE_MOTION; if !ctx.terminal_mode().intersects(mouse_modes) { Clipboard::new() .and_then(|clipboard| clipboard.load_selection() ) .map(|contents| { self.paste(ctx, contents) }) .unwrap_or_else(|err| { warn!("Error loading data from clipboard. {}", Red(err)); }); } }, Action::Command(ref program, ref args) => { trace!("running command: {} {:?}", program, args); match Command::new(program) .args(args) .before_exec(|| { // Detach forked process from Alacritty. This will cause // init or whatever to clean up child processes for us. unsafe { ::libc::daemon(1, 0); } Ok(()) }) .spawn() { Ok(child) => { debug!("spawned new proc with pid: {}", child.id()); }, Err(err) => { warn!("couldn't run command: {}", err); }, } }, Action::Quit => { // FIXME should do a more graceful shutdown ::std::process::exit(0); }, Action::IncreaseFontSize => { ctx.change_font_size(1); }, Action::DecreaseFontSize => { ctx.change_font_size(-1); } Action::ResetFontSize => { ctx.reset_font_size(); } } } fn paste(&self, ctx: &mut A, contents: String) { if ctx.terminal_mode().contains(TermMode::BRACKETED_PASTE) { ctx.write_to_pty(&b"\x1b[200~"[..]); ctx.write_to_pty(contents.into_bytes()); ctx.write_to_pty(&b"\x1b[201~"[..]); } else { // In non-bracketed (ie: normal) mode, terminal applications cannot distinguish // pasted data from keystrokes. // In theory, we should construct the keystrokes needed to produce the data we are // pasting... since that's neither practical nor sensible (and probably an impossible // task to solve in a general way), we'll just replace line breaks (windows and unix // style) with a singe carriage return (\r, which is what the Enter key produces). ctx.write_to_pty(contents.replace("\r\n","\r").replace("\n","\r").into_bytes()); } } } impl From<&'static str> for Action { fn from(s: &'static str) -> Action { Action::Esc(s.into()) } } impl<'a, A: ActionContext + 'a> Processor<'a, A> { #[inline] pub fn mouse_moved(&mut self, x: u32, y: u32, modifiers: ModifiersState) { self.ctx.mouse_mut().x = x; self.ctx.mouse_mut().y = y; let size_info = self.ctx.size_info(); if let Some(point) = size_info.pixels_to_coords(x as usize, y as usize) { let prev_line = mem::replace(&mut self.ctx.mouse_mut().line, point.line); let prev_col = mem::replace(&mut self.ctx.mouse_mut().column, point.col); let cell_x = (x as usize - size_info.padding_x as usize) % size_info.cell_width as usize; let half_cell_width = (size_info.cell_width / 2.0) as usize; let cell_side = if cell_x > half_cell_width { Side::Right } else { Side::Left }; self.ctx.mouse_mut().cell_side = cell_side; let motion_mode = TermMode::MOUSE_MOTION | TermMode::MOUSE_DRAG; if self.ctx.mouse_mut().left_button_state == ElementState::Pressed && ( modifiers.shift || !self.ctx.terminal_mode().intersects(TermMode::MOUSE_REPORT_CLICK | motion_mode) ) { self.ctx.update_selection(Point { line: point.line, col: point.col }, cell_side); } else if self.ctx.terminal_mode().intersects(motion_mode) // Only report motion when changing cells && ( prev_line != self.ctx.mouse_mut().line || prev_col != self.ctx.mouse_mut().column ) { if self.ctx.mouse_mut().left_button_state == ElementState::Pressed { self.mouse_report(32, ElementState::Pressed, modifiers); } else if self.ctx.mouse_mut().middle_button_state == ElementState::Pressed { self.mouse_report(33, ElementState::Pressed, modifiers); } else if self.ctx.mouse_mut().right_button_state == ElementState::Pressed { self.mouse_report(34, ElementState::Pressed, modifiers); } else if self.ctx.terminal_mode().contains(TermMode::MOUSE_MOTION) { self.mouse_report(35, ElementState::Pressed, modifiers); } } } } pub fn normal_mouse_report(&mut self, button: u8) { let (line, column) = (self.ctx.mouse_mut().line, self.ctx.mouse_mut().column); if line < Line(223) && column < Column(223) { let msg = vec![ b'\x1b', b'[', b'M', 32 + button, 32 + 1 + column.0 as u8, 32 + 1 + line.0 as u8, ]; self.ctx.write_to_pty(msg); } } pub fn sgr_mouse_report(&mut self, button: u8, state: ElementState) { let (line, column) = (self.ctx.mouse_mut().line, self.ctx.mouse_mut().column); let c = match state { ElementState::Pressed => 'M', ElementState::Released => 'm', }; let msg = format!("\x1b[<{};{};{}{}", button, column + 1, line + 1, c); self.ctx.write_to_pty(msg.into_bytes()); } pub fn mouse_report(&mut self, button: u8, state: ElementState, modifiers: ModifiersState) { // Calculate modifiers value let mut mods = 0; if modifiers.shift { mods += 4; } if modifiers.alt { mods += 8; } if modifiers.ctrl { mods += 16; } // Report mouse events if self.ctx.terminal_mode().contains(TermMode::SGR_MOUSE) { self.sgr_mouse_report(button + mods, state); } else if let ElementState::Released = state { self.normal_mouse_report(3 + mods); } else { self.normal_mouse_report(button + mods); } } pub fn on_mouse_double_click(&mut self) { if let Some(point) = self.ctx.mouse_coords() { self.ctx.semantic_selection(point); } } pub fn on_mouse_triple_click(&mut self) { if let Some(point) = self.ctx.mouse_coords() { self.ctx.line_selection(point); } } pub fn on_mouse_press(&mut self, button: MouseButton, modifiers: ModifiersState) { let now = Instant::now(); let elapsed = self.ctx.mouse_mut().last_click_timestamp.elapsed(); self.ctx.mouse_mut().last_click_timestamp = now; self.ctx.mouse_mut().click_state = match self.ctx.mouse_mut().click_state { ClickState::Click if elapsed < self.mouse_config.double_click.threshold => { self.on_mouse_double_click(); ClickState::DoubleClick }, ClickState::DoubleClick if elapsed < self.mouse_config.triple_click.threshold => { self.on_mouse_triple_click(); ClickState::TripleClick }, _ => { self.ctx.clear_selection(); let report_modes = TermMode::MOUSE_REPORT_CLICK | TermMode::MOUSE_DRAG | TermMode::MOUSE_MOTION; if !modifiers.shift && self.ctx.terminal_mode().intersects(report_modes) { match button { MouseButton::Left => self.mouse_report(0, ElementState::Pressed, modifiers), MouseButton::Middle => self.mouse_report(1, ElementState::Pressed, modifiers), MouseButton::Right => self.mouse_report(2, ElementState::Pressed, modifiers), // Can't properly report more than three buttons. MouseButton::Other(_) => (), }; return; } ClickState::Click } }; } pub fn on_mouse_release(&mut self, button: MouseButton, modifiers: ModifiersState) { let report_modes = TermMode::MOUSE_REPORT_CLICK | TermMode::MOUSE_DRAG | TermMode::MOUSE_MOTION; if !modifiers.shift && self.ctx.terminal_mode().intersects(report_modes) { match button { MouseButton::Left => self.mouse_report(0, ElementState::Released, modifiers), MouseButton::Middle => self.mouse_report(1, ElementState::Released, modifiers), MouseButton::Right => self.mouse_report(2, ElementState::Released, modifiers), // Can't properly report more than three buttons. MouseButton::Other(_) => (), }; return; } self.ctx.copy_selection(Buffer::Selection); } pub fn on_mouse_wheel(&mut self, delta: MouseScrollDelta, phase: TouchPhase, modifiers: ModifiersState) { match delta { MouseScrollDelta::LineDelta(_columns, lines) => { let to_scroll = self.ctx.mouse_mut().lines_scrolled + lines; let code = if to_scroll > 0.0 { 64 } else { 65 }; let scrolling_multiplier = self.mouse_config.normal_scrolling_lines; for _ in 0..(to_scroll.abs() as usize) { self.scroll_terminal(code, modifiers, scrolling_multiplier) } self.ctx.mouse_mut().lines_scrolled = to_scroll % 1.0; }, MouseScrollDelta::PixelDelta(_x, y) => { match phase { TouchPhase::Started => { // Reset offset to zero self.ctx.mouse_mut().scroll_px = 0; }, TouchPhase::Moved => { self.ctx.mouse_mut().scroll_px += y as i32; let height = self.ctx.size_info().cell_height as i32; while self.ctx.mouse_mut().scroll_px.abs() >= height { let code = if self.ctx.mouse_mut().scroll_px > 0 { self.ctx.mouse_mut().scroll_px -= height; 64 } else { self.ctx.mouse_mut().scroll_px += height; 65 }; self.scroll_terminal(code, modifiers, 1) } }, _ => (), } } } } fn scroll_terminal(&mut self, code: u8, modifiers: ModifiersState, scroll_multiplier: u8) { debug_assert!(code == 64 || code == 65); let faux_scrollback_lines = self.mouse_config.faux_scrollback_lines; let mouse_modes = TermMode::MOUSE_REPORT_CLICK | TermMode::MOUSE_DRAG | TermMode::MOUSE_MOTION; if self.ctx.terminal_mode().intersects(mouse_modes) { self.mouse_report(code, ElementState::Pressed, modifiers); } else if self.ctx.terminal_mode().contains(TermMode::ALT_SCREEN) && faux_scrollback_lines > 0 && !modifiers.shift { // Faux scrolling let cmd = code + 1; // 64 + 1 = A, 65 + 1 = B let mut content = Vec::with_capacity(faux_scrollback_lines as usize * 3); for _ in 0..faux_scrollback_lines { content.push(0x1b); content.push(b'O'); content.push(cmd); } self.ctx.write_to_pty(content); } else { for _ in 0..scroll_multiplier { self.ctx.scroll(-((code as isize) * 2 - 129)); } } } pub fn on_focus_change(&mut self, is_focused: bool) { if self.ctx.terminal_mode().contains(TermMode::FOCUS_IN_OUT) { let chr = if is_focused { "I" } else { "O" }; let msg = format!("\x1b[{}", chr); self.ctx.write_to_pty(msg.into_bytes()); } } pub fn mouse_input(&mut self, state: ElementState, button: MouseButton, modifiers: ModifiersState) { let prev_state = match button { MouseButton::Left => Some(mem::replace(&mut self.ctx.mouse_mut().left_button_state, state)), MouseButton::Middle => Some(mem::replace(&mut self.ctx.mouse_mut().middle_button_state, state)), MouseButton::Right => Some(mem::replace(&mut self.ctx.mouse_mut().right_button_state, state)), // Can't properly report more than three buttons. MouseButton::Other(_) => None, }; if let Some(prev_state) = prev_state { if prev_state != state { match state { ElementState::Pressed => self.on_mouse_press(button, modifiers), ElementState::Released => self.on_mouse_release(button, modifiers), }; } } if let ElementState::Released = state { return; } self.process_mouse_bindings(&ModifiersState::default(), button); } /// Process key input /// /// If a keybinding was run, returns true. Otherwise returns false. pub fn process_key( &mut self, state: ElementState, key: Option, mods: &ModifiersState, ) { match (key, state) { (Some(key), ElementState::Pressed) => { *self.ctx.last_modifiers() = *mods; *self.ctx.received_count() = 0; *self.ctx.suppress_chars() = false; if self.process_key_bindings(mods, key) { *self.ctx.suppress_chars() = true; } }, (_, ElementState::Released) => *self.ctx.suppress_chars() = false, _ => () } } /// Process a received character pub fn received_char(&mut self, c: char) { if !*self.ctx.suppress_chars() { self.ctx.reset_scroll(); self.ctx.clear_selection(); let utf8_len = c.len_utf8(); if *self.ctx.received_count() == 0 && self.ctx.last_modifiers().alt && utf8_len == 1 { self.ctx.write_to_pty(b"\x1b".to_vec()); } let mut bytes = Vec::with_capacity(utf8_len); unsafe { bytes.set_len(utf8_len); c.encode_utf8(&mut bytes[..]); } self.ctx.write_to_pty(bytes); *self.ctx.received_count() += 1; } } /// Attempts to find a binding and execute its action /// /// The provided mode, mods, and key must match what is allowed by a binding /// for its action to be executed. /// /// Returns true if an action is executed. fn process_key_bindings(&mut self, mods: &ModifiersState, key: VirtualKeyCode) -> bool { for binding in self.key_bindings { if binding.is_triggered_by(self.ctx.terminal_mode(), mods, &key) { // binding was triggered; run the action binding.execute(&mut self.ctx); return true; } } false } /// Attempts to find a binding and execute its action /// /// The provided mode, mods, and key must match what is allowed by a binding /// for its action to be executed. /// /// Returns true if an action is executed. fn process_mouse_bindings(&mut self, mods: &ModifiersState, button: MouseButton) -> bool { for binding in self.mouse_bindings { if binding.is_triggered_by(self.ctx.terminal_mode(), mods, &button) { // binding was triggered; run the action binding.execute(&mut self.ctx); return true; } } false } } #[cfg(test)] mod tests { use std::borrow::Cow; use std::time::Duration; use glutin::{VirtualKeyCode, Event, WindowEvent, ElementState, MouseButton, ModifiersState}; use term::{SizeInfo, Term, TermMode}; use event::{Mouse, ClickState}; use config::{self, Config, ClickHandler}; use index::{Point, Side}; use selection::Selection; use super::{Action, Binding, Processor}; const KEY: VirtualKeyCode = VirtualKeyCode::Key0; #[derive(PartialEq)] enum MultiClick { DoubleClick, TripleClick, None, } struct ActionContext<'a> { pub terminal: &'a mut Term, pub selection: &'a mut Option, pub size_info: &'a SizeInfo, pub mouse: &'a mut Mouse, pub last_action: MultiClick, pub received_count: usize, pub suppress_chars: bool, pub last_modifiers: ModifiersState, } impl <'a>super::ActionContext for ActionContext<'a> { fn write_to_pty>>(&mut self, _val: B) { // STUBBED } fn terminal_mode(&self) -> TermMode { *self.terminal.mode() } fn size_info(&self) -> SizeInfo { *self.size_info } fn copy_selection(&self, _buffer: ::copypasta::Buffer) { // STUBBED } fn clear_selection(&mut self) {} fn update_selection(&mut self, _point: Point, _side: Side) {} fn simple_selection(&mut self, _point: Point, _side: Side) {} fn semantic_selection(&mut self, _point: Point) { // set something that we can check for here self.last_action = MultiClick::DoubleClick; } fn line_selection(&mut self, _point: Point) { self.last_action = MultiClick::TripleClick; } fn mouse_coords(&self) -> Option { self.terminal.pixels_to_coords(self.mouse.x as usize, self.mouse.y as usize) } #[inline] fn mouse_mut(&mut self) -> &mut Mouse { self.mouse } fn received_count(&mut self) -> &mut usize { &mut self.received_count } fn suppress_chars(&mut self) -> &mut bool { &mut self.suppress_chars } fn last_modifiers(&mut self) -> &mut ModifiersState { &mut self.last_modifiers } fn change_font_size(&mut self, _delta: i8) { } fn reset_font_size(&mut self) { } } macro_rules! test_clickstate { { name: $name:ident, initial_state: $initial_state:expr, input: $input:expr, end_state: $end_state:pat, last_action: $last_action:expr } => { #[test] fn $name() { let config = Config::default(); let size = SizeInfo { width: 21.0, height: 51.0, cell_width: 3.0, cell_height: 3.0, padding_x: 0.0, padding_y: 0.0, }; let mut terminal = Term::new(&config, size); let mut mouse = Mouse::default(); mouse.click_state = $initial_state; let mut selection = None; let context = ActionContext { terminal: &mut terminal, selection: &mut selection, mouse: &mut mouse, size_info: &size, last_action: MultiClick::None, received_count: 0, suppress_chars: false, last_modifiers: ModifiersState::default(), }; let mut processor = Processor { ctx: context, mouse_config: &config::Mouse { double_click: ClickHandler { threshold: Duration::from_millis(1000), }, triple_click: ClickHandler { threshold: Duration::from_millis(1000), }, faux_scrollback_lines: None, }, scrolling_config: &config::Scrolling::default(), key_bindings: &config.key_bindings()[..], mouse_bindings: &config.mouse_bindings()[..], }; if let Event::WindowEvent { event: WindowEvent::MouseInput { state, button, modifiers, .. }, .. } = $input { processor.mouse_input(state, button, modifiers); }; assert!(match mouse.click_state { $end_state => processor.ctx.last_action == $last_action, _ => false }); } } } macro_rules! test_process_binding { { name: $name:ident, binding: $binding:expr, triggers: $triggers:expr, mode: $mode:expr, mods: $mods:expr } => { #[test] fn $name() { if $triggers { assert!($binding.is_triggered_by($mode, &$mods, &KEY)); } else { assert!(!$binding.is_triggered_by($mode, &$mods, &KEY)); } } } } test_clickstate! { name: single_click, initial_state: ClickState::None, input: Event::WindowEvent { event: WindowEvent::MouseInput { state: ElementState::Pressed, button: MouseButton::Left, device_id: unsafe { ::std::mem::transmute_copy(&0) }, modifiers: ModifiersState::default(), }, window_id: unsafe { ::std::mem::transmute_copy(&0) }, }, end_state: ClickState::Click, last_action: MultiClick::None } test_clickstate! { name: double_click, initial_state: ClickState::Click, input: Event::WindowEvent { event: WindowEvent::MouseInput { state: ElementState::Pressed, button: MouseButton::Left, device_id: unsafe { ::std::mem::transmute_copy(&0) }, modifiers: ModifiersState::default(), }, window_id: unsafe { ::std::mem::transmute_copy(&0) }, }, end_state: ClickState::DoubleClick, last_action: MultiClick::DoubleClick } test_clickstate! { name: triple_click, initial_state: ClickState::DoubleClick, input: Event::WindowEvent { event: WindowEvent::MouseInput { state: ElementState::Pressed, button: MouseButton::Left, device_id: unsafe { ::std::mem::transmute_copy(&0) }, modifiers: ModifiersState::default(), }, window_id: unsafe { ::std::mem::transmute_copy(&0) }, }, end_state: ClickState::TripleClick, last_action: MultiClick::TripleClick } test_process_binding! { name: process_binding_nomode_shiftmod_require_shift, binding: Binding { trigger: KEY, mods: ModifiersState { shift: true, ctrl: false, alt: false, logo: false }, action: Action::from("\x1b[1;2D"), mode: TermMode::NONE, notmode: TermMode::NONE }, triggers: true, mode: TermMode::NONE, mods: ModifiersState { shift: true, ctrl: false, alt: false, logo: false } } test_process_binding! { name: process_binding_nomode_nomod_require_shift, binding: Binding { trigger: KEY, mods: ModifiersState { shift: true, ctrl: false, alt: false, logo: false }, action: Action::from("\x1b[1;2D"), mode: TermMode::NONE, notmode: TermMode::NONE }, triggers: false, mode: TermMode::NONE, mods: ModifiersState { shift: false, ctrl: false, alt: false, logo: false } } test_process_binding! { name: process_binding_nomode_controlmod, binding: Binding { trigger: KEY, mods: ModifiersState { ctrl: true, shift: false, alt: false, logo: false }, action: Action::from("\x1b[1;5D"), mode: TermMode::NONE, notmode: TermMode::NONE }, triggers: true, mode: TermMode::NONE, mods: ModifiersState { ctrl: true, shift: false, alt: false, logo: false } } test_process_binding! { name: process_binding_nomode_nomod_require_not_appcursor, binding: Binding { trigger: KEY, mods: ModifiersState { shift: false, ctrl: false, alt: false, logo: false }, action: Action::from("\x1b[D"), mode: TermMode::NONE, notmode: TermMode::APP_CURSOR }, triggers: true, mode: TermMode::NONE, mods: ModifiersState { shift: false, ctrl: false, alt: false, logo: false } } test_process_binding! { name: process_binding_appcursormode_nomod_require_appcursor, binding: Binding { trigger: KEY, mods: ModifiersState { shift: false, ctrl: false, alt: false, logo: false }, action: Action::from("\x1bOD"), mode: TermMode::APP_CURSOR, notmode: TermMode::NONE }, triggers: true, mode: TermMode::APP_CURSOR, mods: ModifiersState { shift: false, ctrl: false, alt: false, logo: false } } test_process_binding! { name: process_binding_nomode_nomod_require_appcursor, binding: Binding { trigger: KEY, mods: ModifiersState { shift: false, ctrl: false, alt: false, logo: false }, action: Action::from("\x1bOD"), mode: TermMode::APP_CURSOR, notmode: TermMode::NONE }, triggers: false, mode: TermMode::NONE, mods: ModifiersState { shift: false, ctrl: false, alt: false, logo: false } } test_process_binding! { name: process_binding_appcursormode_appkeypadmode_nomod_require_appcursor, binding: Binding { trigger: KEY, mods: ModifiersState { shift: false, ctrl: false, alt: false, logo: false }, action: Action::from("\x1bOD"), mode: TermMode::APP_CURSOR, notmode: TermMode::NONE }, triggers: true, mode: TermMode::APP_CURSOR | TermMode::APP_KEYPAD, mods: ModifiersState { shift: false, ctrl: false, alt: false, logo: false } } test_process_binding! { name: process_binding_fail_with_extra_mods, binding: Binding { trigger: KEY, mods: ModifiersState { shift: false, ctrl: false, alt: false, logo: true }, action: Action::from("arst"), mode: TermMode::NONE, notmode: TermMode::NONE }, triggers: false, mode: TermMode::NONE, mods: ModifiersState { shift: false, ctrl: false, alt: true, logo: true } } }