// 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. // //! Exports the `Term` type which is a high-level API for the Grid use std::cmp::{max, min}; use std::ops::{Index, IndexMut, Range, RangeInclusive}; use std::time::{Duration, Instant}; use std::{io, mem, ptr}; use font::{self, Size}; use glutin::MouseCursor; use unicode_width::UnicodeWidthChar; use crate::ansi::{ self, Attr, CharsetIndex, Color, CursorStyle, Handler, NamedColor, StandardCharset, }; use crate::clipboard::{Clipboard, ClipboardType}; use crate::config::{Config, VisualBellAnimation}; use crate::cursor::CursorKey; use crate::grid::{ BidirectionalIterator, DisplayIter, Grid, GridCell, IndexRegion, Indexed, Scroll, ViewportPosition, }; use crate::index::{self, Column, Contains, IndexRange, Line, Linear, Point}; use crate::input::FONT_SIZE_STEP; use crate::message_bar::MessageBuffer; use crate::selection::{self, Selection, Span}; use crate::term::cell::{Cell, Flags, LineLength}; use crate::term::color::Rgb; use crate::url::{Url, UrlParser}; #[cfg(windows)] use crate::tty; pub mod cell; pub mod color; /// Used to match equal brackets, when performing a bracket-pair selection. const BRACKET_PAIRS: [(char, char); 4] = [('(', ')'), ('[', ']'), ('{', '}'), ('<', '>')]; /// A type that can expand a given point to a region /// /// Usually this is implemented for some 2-D array type since /// points are two dimensional indices. pub trait Search { /// Find the nearest semantic boundary _to the left_ of provided point. fn semantic_search_left(&self, _: Point) -> Point; /// Find the nearest semantic boundary _to the point_ of provided point. fn semantic_search_right(&self, _: Point) -> Point; /// Find the nearest URL boundary in both directions. fn url_search(&self, _: Point) -> Option; /// Find the nearest matching bracket. fn bracket_search(&self, _: Point) -> Option>; } impl Search for Term { fn semantic_search_left(&self, mut point: Point) -> Point { // Limit the starting point to the last line in the history point.line = min(point.line, self.grid.len() - 1); let mut iter = self.grid.iter_from(point); let last_col = self.grid.num_cols() - Column(1); while let Some(cell) = iter.prev() { if self.semantic_escape_chars.contains(cell.c) { break; } if iter.cur.col == last_col && !cell.flags.contains(cell::Flags::WRAPLINE) { break; // cut off if on new line or hit escape char } point = iter.cur; } point } fn semantic_search_right(&self, mut point: Point) -> Point { // Limit the starting point to the last line in the history point.line = min(point.line, self.grid.len() - 1); let mut iter = self.grid.iter_from(point); let last_col = self.grid.num_cols() - 1; while let Some(cell) = iter.next() { if self.semantic_escape_chars.contains(cell.c) { break; } point = iter.cur; if point.col == last_col && !cell.flags.contains(cell::Flags::WRAPLINE) { break; // cut off if on new line or hit escape char } } point } fn url_search(&self, mut point: Point) -> Option { let last_col = self.grid.num_cols() - 1; // Switch first line from top to bottom point.line = self.grid.num_lines().0 - point.line - 1; // Remove viewport scroll offset point.line += self.grid.display_offset(); // Create forwards and backwards iterators let mut iterf = self.grid.iter_from(point); point.col += 1; let mut iterb = self.grid.iter_from(point); // Find URLs let mut url_parser = UrlParser::new(); while let Some(cell) = iterb.prev() { if (iterb.cur.col == last_col && !cell.flags.contains(cell::Flags::WRAPLINE)) || url_parser.advance_left(cell) { break; } } while let Some(cell) = iterf.next() { if url_parser.advance_right(cell) || (iterf.cur.col == last_col && !cell.flags.contains(cell::Flags::WRAPLINE)) { break; } } url_parser.url() } fn bracket_search(&self, point: Point) -> Option> { let start_char = self.grid[point.line][point.col].c; // Find the matching bracket we're looking for let (forwards, end_char) = BRACKET_PAIRS.iter().find_map(|(open, close)| { if open == &start_char { Some((true, *close)) } else if close == &start_char { Some((false, *open)) } else { None } })?; let mut iter = self.grid.iter_from(point); // For every character match that equals the starting bracket, we // ignore one bracket of the opposite type. let mut skip_pairs = 0; loop { // Check the next cell let cell = if forwards { iter.next() } else { iter.prev() }; // Break if there are no more cells let c = match cell { Some(cell) => cell.c, None => break, }; // Check if the bracket matches if c == end_char && skip_pairs == 0 { return Some(iter.cur); } else if c == start_char { skip_pairs += 1; } else if c == end_char { skip_pairs -= 1; } } None } } impl selection::Dimensions for Term { fn dimensions(&self) -> Point { let line = if self.mode.contains(TermMode::ALT_SCREEN) { self.grid.num_lines() } else { Line(self.grid.len()) }; Point { col: self.grid.num_cols(), line } } } /// Iterator that yields cells needing render /// /// Yields cells that require work to be displayed (that is, not a an empty /// background cell). Additionally, this manages some state of the grid only /// relevant for rendering like temporarily changing the cell with the cursor. /// /// This manages the cursor during a render. The cursor location is inverted to /// draw it, and reverted after drawing to maintain state. pub struct RenderableCellsIter<'a> { inner: DisplayIter<'a, Cell>, grid: &'a Grid, cursor: &'a Point, cursor_offset: usize, cursor_key: Option, cursor_style: CursorStyle, config: &'a Config, colors: &'a color::List, selection: Option>, url_highlight: &'a Option>, } impl<'a> RenderableCellsIter<'a> { /// Create the renderable cells iterator /// /// The cursor and terminal mode are required for properly displaying the /// cursor. fn new<'b>( term: &'b Term, config: &'b Config, selection: Option, mut cursor_style: CursorStyle, ) -> RenderableCellsIter<'b> { let grid = &term.grid; let cursor_offset = grid.line_to_offset(term.cursor.point.line); let inner = grid.display_iter(); let selection_range = selection.and_then(|span| { // Get on-screen lines of the selection's locations let start_line = grid.buffer_line_to_visible(span.start.line); let end_line = grid.buffer_line_to_visible(span.end.line); // Get start/end locations based on what part of selection is on screen let locations = match (start_line, end_line) { (ViewportPosition::Visible(start_line), ViewportPosition::Visible(end_line)) => { Some((start_line, span.start.col, end_line, span.end.col)) }, (ViewportPosition::Visible(start_line), ViewportPosition::Above) => { Some((start_line, span.start.col, Line(0), Column(0))) }, (ViewportPosition::Below, ViewportPosition::Visible(end_line)) => { Some((grid.num_lines(), Column(0), end_line, span.end.col)) }, (ViewportPosition::Below, ViewportPosition::Above) => { Some((grid.num_lines(), Column(0), Line(0), Column(0))) }, _ => None, }; locations.map(|(start_line, start_col, end_line, end_col)| { // start and end *lines* are swapped as we switch from buffer to // Line coordinates. let mut end = Point { line: start_line, col: start_col }; let mut start = Point { line: end_line, col: end_col }; if start > end { ::std::mem::swap(&mut start, &mut end); } let cols = grid.num_cols(); let start = Linear::from_point(cols, start.into()); let end = Linear::from_point(cols, end.into()); RangeInclusive::new(start, end) }) }); // Load cursor glyph let cursor = &term.cursor.point; let cursor_visible = term.mode.contains(TermMode::SHOW_CURSOR) && grid.contains(cursor); let cursor_key = if cursor_visible { let is_wide = grid[cursor].flags.contains(cell::Flags::WIDE_CHAR) && (cursor.col + 1) < grid.num_cols(); Some(CursorKey { style: cursor_style, is_wide }) } else { // Use hidden cursor so text will not get inverted cursor_style = CursorStyle::Hidden; None }; RenderableCellsIter { cursor, cursor_offset, grid, inner, selection: selection_range, url_highlight: &grid.url_highlight, config, colors: &term.colors, cursor_key, cursor_style, } } } #[derive(Clone, Debug)] pub enum RenderableCellContent { Chars([char; cell::MAX_ZEROWIDTH_CHARS + 1]), Cursor(CursorKey), } #[derive(Clone, Debug)] pub struct RenderableCell { /// A _Display_ line (not necessarily an _Active_ line) pub line: Line, pub column: Column, pub inner: RenderableCellContent, pub fg: Rgb, pub bg: Rgb, pub bg_alpha: f32, pub flags: cell::Flags, } impl RenderableCell { fn new(config: &Config, colors: &color::List, cell: Indexed, selected: bool) -> Self { // Lookup RGB values let mut fg_rgb = Self::compute_fg_rgb(config, colors, cell.fg, cell.flags); let mut bg_rgb = Self::compute_bg_rgb(colors, cell.bg); let selection_background = config.colors.selection.background; if let (true, Some(col)) = (selected, selection_background) { // Override selection background with config colors bg_rgb = col; } else if selected ^ cell.inverse() { if fg_rgb == bg_rgb && !cell.flags.contains(Flags::HIDDEN) { // Reveal inversed text when fg/bg is the same fg_rgb = colors[NamedColor::Background]; bg_rgb = colors[NamedColor::Foreground]; } else { // Invert cell fg and bg colors mem::swap(&mut fg_rgb, &mut bg_rgb); } } // Override selection text with config colors if let (true, Some(col)) = (selected, config.colors.selection.text) { fg_rgb = col; } RenderableCell { line: cell.line, column: cell.column, inner: RenderableCellContent::Chars(cell.chars()), fg: fg_rgb, bg: bg_rgb, bg_alpha: Self::compute_bg_alpha(colors, bg_rgb), flags: cell.flags, } } fn compute_fg_rgb(config: &Config, colors: &color::List, fg: Color, flags: cell::Flags) -> Rgb { match fg { Color::Spec(rgb) => rgb, Color::Named(ansi) => { match (config.draw_bold_text_with_bright_colors(), flags & Flags::DIM_BOLD) { // If no bright foreground is set, treat it like the BOLD flag doesn't exist (_, cell::Flags::DIM_BOLD) if ansi == NamedColor::Foreground && config.colors.primary.bright_foreground.is_none() => { colors[NamedColor::DimForeground] }, // Draw bold text in bright colors *and* contains bold flag. (true, cell::Flags::BOLD) => colors[ansi.to_bright()], // Cell is marked as dim and not bold (_, cell::Flags::DIM) | (false, cell::Flags::DIM_BOLD) => colors[ansi.to_dim()], // None of the above, keep original color. _ => colors[ansi], } }, Color::Indexed(idx) => { let idx = match ( config.draw_bold_text_with_bright_colors(), flags & Flags::DIM_BOLD, idx, ) { (true, cell::Flags::BOLD, 0..=7) => idx as usize + 8, (false, cell::Flags::DIM, 8..=15) => idx as usize - 8, (false, cell::Flags::DIM, 0..=7) => idx as usize + 260, _ => idx as usize, }; colors[idx] }, } } #[inline] fn compute_bg_alpha(colors: &color::List, bg: Rgb) -> f32 { if colors[NamedColor::Background] == bg { 0. } else { 1. } } #[inline] fn compute_bg_rgb(colors: &color::List, bg: Color) -> Rgb { match bg { Color::Spec(rgb) => rgb, Color::Named(ansi) => colors[ansi], Color::Indexed(idx) => colors[idx], } } } impl<'a> Iterator for RenderableCellsIter<'a> { type Item = RenderableCell; /// Gets the next renderable cell /// /// Skips empty (background) cells and applies any flags to the cell state /// (eg. invert fg and bg colors). #[inline] fn next(&mut self) -> Option { loop { if self.cursor_offset == self.inner.offset() && self.inner.column() == self.cursor.col { let index = Linear::new(self.grid.num_cols(), self.cursor.col, self.cursor.line); let selected = self.selection.as_ref().map(|range| range.contains_(index)).unwrap_or(false); // Handle cursor if let Some(cursor_key) = self.cursor_key.take() { let cell = Indexed { inner: self.grid[self.cursor], column: self.cursor.col, line: self.cursor.line, }; let mut renderable_cell = RenderableCell::new(self.config, self.colors, cell, selected); renderable_cell.inner = RenderableCellContent::Cursor(cursor_key); if let Some(color) = self.config.colors.cursor.cursor { renderable_cell.fg = color; } return Some(renderable_cell); } else { let mut cell = RenderableCell::new(self.config, self.colors, self.inner.next()?, selected); if self.cursor_style == CursorStyle::Block { std::mem::swap(&mut cell.bg, &mut cell.fg); if let Some(color) = self.config.colors.cursor.text { cell.fg = color; } } return Some(cell); } } else { let mut cell = self.inner.next()?; let index = Linear::new(self.grid.num_cols(), cell.column, cell.line); let selected = self.selection.as_ref().map(|range| range.contains_(index)).unwrap_or(false); // Underline URL highlights if self.url_highlight.as_ref().map(|range| range.contains_(index)).unwrap_or(false) { cell.inner.flags.insert(Flags::UNDERLINE); } if !cell.is_empty() || selected { return Some(RenderableCell::new(self.config, self.colors, cell, selected)); } } } } } pub mod mode { use bitflags::bitflags; bitflags! { pub struct TermMode: u16 { const SHOW_CURSOR = 0b00_0000_0000_0001; const APP_CURSOR = 0b00_0000_0000_0010; const APP_KEYPAD = 0b00_0000_0000_0100; const MOUSE_REPORT_CLICK = 0b00_0000_0000_1000; const BRACKETED_PASTE = 0b00_0000_0001_0000; const SGR_MOUSE = 0b00_0000_0010_0000; const MOUSE_MOTION = 0b00_0000_0100_0000; const LINE_WRAP = 0b00_0000_1000_0000; const LINE_FEED_NEW_LINE = 0b00_0001_0000_0000; const ORIGIN = 0b00_0010_0000_0000; const INSERT = 0b00_0100_0000_0000; const FOCUS_IN_OUT = 0b00_1000_0000_0000; const ALT_SCREEN = 0b01_0000_0000_0000; const MOUSE_DRAG = 0b10_0000_0000_0000; const ANY = 0b11_1111_1111_1111; const NONE = 0; } } impl Default for TermMode { fn default() -> TermMode { TermMode::SHOW_CURSOR | TermMode::LINE_WRAP } } } pub use crate::term::mode::TermMode; trait CharsetMapping { fn map(&self, c: char) -> char { c } } impl CharsetMapping for StandardCharset { /// Switch/Map character to the active charset. Ascii is the common case and /// for that we want to do as little as possible. #[inline] fn map(&self, c: char) -> char { match *self { StandardCharset::Ascii => c, StandardCharset::SpecialCharacterAndLineDrawing => match c { '`' => '◆', 'a' => '▒', 'b' => '\t', 'c' => '\u{000c}', 'd' => '\r', 'e' => '\n', 'f' => '°', 'g' => '±', 'h' => '\u{2424}', 'i' => '\u{000b}', 'j' => '┘', 'k' => '┐', 'l' => '┌', 'm' => '└', 'n' => '┼', 'o' => '⎺', 'p' => '⎻', 'q' => '─', 'r' => '⎼', 's' => '⎽', 't' => '├', 'u' => '┤', 'v' => '┴', 'w' => '┬', 'x' => '│', 'y' => '≤', 'z' => '≥', '{' => 'π', '|' => '≠', '}' => '£', '~' => '·', _ => c, }, } } } #[derive(Default, Copy, Clone)] struct Charsets([StandardCharset; 4]); impl Index for Charsets { type Output = StandardCharset; fn index(&self, index: CharsetIndex) -> &StandardCharset { &self.0[index as usize] } } impl IndexMut for Charsets { fn index_mut(&mut self, index: CharsetIndex) -> &mut StandardCharset { &mut self.0[index as usize] } } #[derive(Default, Copy, Clone)] pub struct Cursor { /// The location of this cursor pub point: Point, /// Template cell when using this cursor template: Cell, /// Currently configured graphic character sets charsets: Charsets, } pub struct VisualBell { /// Visual bell animation animation: VisualBellAnimation, /// Visual bell duration duration: Duration, /// The last time the visual bell rang, if at all start_time: Option, } fn cubic_bezier(p0: f64, p1: f64, p2: f64, p3: f64, x: f64) -> f64 { (1.0 - x).powi(3) * p0 + 3.0 * (1.0 - x).powi(2) * x * p1 + 3.0 * (1.0 - x) * x.powi(2) * p2 + x.powi(3) * p3 } impl VisualBell { pub fn new(config: &Config) -> VisualBell { let visual_bell_config = &config.visual_bell; VisualBell { animation: visual_bell_config.animation, duration: visual_bell_config.duration(), start_time: None, } } /// Ring the visual bell, and return its intensity. pub fn ring(&mut self) -> f64 { let now = Instant::now(); self.start_time = Some(now); self.intensity_at_instant(now) } /// Get the currently intensity of the visual bell. The bell's intensity /// ramps down from 1.0 to 0.0 at a rate determined by the bell's duration. pub fn intensity(&self) -> f64 { self.intensity_at_instant(Instant::now()) } /// Check whether or not the visual bell has completed "ringing". pub fn completed(&mut self) -> bool { match self.start_time { Some(earlier) => { if Instant::now().duration_since(earlier) >= self.duration { self.start_time = None; } false }, None => true, } } /// Get the intensity of the visual bell at a particular instant. The bell's /// intensity ramps down from 1.0 to 0.0 at a rate determined by the bell's /// duration. pub fn intensity_at_instant(&self, instant: Instant) -> f64 { // If `duration` is zero, then the VisualBell is disabled; therefore, // its `intensity` is zero. if self.duration == Duration::from_secs(0) { return 0.0; } match self.start_time { // Similarly, if `start_time` is `None`, then the VisualBell has not // been "rung"; therefore, its `intensity` is zero. None => 0.0, Some(earlier) => { // Finally, if the `instant` at which we wish to compute the // VisualBell's `intensity` occurred before the VisualBell was // "rung", then its `intensity` is also zero. if instant < earlier { return 0.0; } let elapsed = instant.duration_since(earlier); let elapsed_f = elapsed.as_secs() as f64 + f64::from(elapsed.subsec_nanos()) / 1e9f64; let duration_f = self.duration.as_secs() as f64 + f64::from(self.duration.subsec_nanos()) / 1e9f64; // Otherwise, we compute a value `time` from 0.0 to 1.0 // inclusive that represents the ratio of `elapsed` time to the // `duration` of the VisualBell. let time = (elapsed_f / duration_f).min(1.0); // We use this to compute the inverse `intensity` of the // VisualBell. When `time` is 0.0, `inverse_intensity` is 0.0, // and when `time` is 1.0, `inverse_intensity` is 1.0. let inverse_intensity = match self.animation { VisualBellAnimation::Ease | VisualBellAnimation::EaseOut => { cubic_bezier(0.25, 0.1, 0.25, 1.0, time) }, VisualBellAnimation::EaseOutSine => cubic_bezier(0.39, 0.575, 0.565, 1.0, time), VisualBellAnimation::EaseOutQuad => cubic_bezier(0.25, 0.46, 0.45, 0.94, time), VisualBellAnimation::EaseOutCubic => { cubic_bezier(0.215, 0.61, 0.355, 1.0, time) }, VisualBellAnimation::EaseOutQuart => cubic_bezier(0.165, 0.84, 0.44, 1.0, time), VisualBellAnimation::EaseOutQuint => cubic_bezier(0.23, 1.0, 0.32, 1.0, time), VisualBellAnimation::EaseOutExpo => cubic_bezier(0.19, 1.0, 0.22, 1.0, time), VisualBellAnimation::EaseOutCirc => cubic_bezier(0.075, 0.82, 0.165, 1.0, time), VisualBellAnimation::Linear => time, }; // Since we want the `intensity` of the VisualBell to decay over // `time`, we subtract the `inverse_intensity` from 1.0. 1.0 - inverse_intensity }, } } pub fn update_config(&mut self, config: &Config) { let visual_bell_config = &config.visual_bell; self.animation = visual_bell_config.animation; self.duration = visual_bell_config.duration(); } } pub struct Term { /// The grid grid: Grid, /// Tracks if the next call to input will need to first handle wrapping. /// This is true after the last column is set with the input function. Any function that /// implicitly sets the line or column needs to set this to false to avoid wrapping twice. /// input_needs_wrap ensures that cursor.col is always valid for use into indexing into /// arrays. Without it we would have to sanitize cursor.col every time we used it. input_needs_wrap: bool, /// Got a request to set title; it's buffered here until next draw. /// /// Would be nice to avoid the allocation... next_title: Option, /// Got a request to set the mouse cursor; it's buffered here until the next draw next_mouse_cursor: Option, /// Alternate grid alt_grid: Grid, /// Alt is active alt: bool, /// The cursor cursor: Cursor, /// The graphic character set, out of `charsets`, which ASCII is currently /// being mapped to active_charset: CharsetIndex, /// Tabstops tabs: TabStops, /// Mode flags mode: TermMode, /// Scroll region scroll_region: Range, /// Font size pub font_size: Size, original_font_size: Size, /// Size size_info: SizeInfo, pub dirty: bool, pub visual_bell: VisualBell, pub next_is_urgent: Option, /// Saved cursor from main grid cursor_save: Cursor, /// Saved cursor from alt grid cursor_save_alt: Cursor, semantic_escape_chars: String, /// Colors used for rendering colors: color::List, /// Is color in `colors` modified or not color_modified: [bool; color::COUNT], /// Original colors from config original_colors: color::List, /// Current style of the cursor cursor_style: Option, /// Default style for resetting the cursor default_cursor_style: CursorStyle, /// Whether to permit updating the terminal title dynamic_title: bool, /// Number of spaces in one tab tabspaces: usize, /// Automatically scroll to bottom when new lines are added auto_scroll: bool, /// Buffer to store messages for the message bar message_buffer: MessageBuffer, /// Hint that Alacritty should be closed should_exit: bool, /// Clipboard access coupled to the active window clipboard: Clipboard, } /// Terminal size info #[derive(Debug, Copy, Clone, Serialize, Deserialize)] pub struct SizeInfo { /// Terminal window width pub width: f32, /// Terminal window height pub height: f32, /// Width of individual cell pub cell_width: f32, /// Height of individual cell pub cell_height: f32, /// Horizontal window padding pub padding_x: f32, /// Horizontal window padding pub padding_y: f32, /// DPI factor of the current window #[serde(default)] pub dpr: f64, } impl SizeInfo { #[inline] pub fn lines(&self) -> Line { Line(((self.height - 2. * self.padding_y) / self.cell_height) as usize) } #[inline] pub fn cols(&self) -> Column { Column(((self.width - 2. * self.padding_x) / self.cell_width) as usize) } pub fn contains_point(&self, x: usize, y: usize, include_padding: bool) -> bool { if include_padding { x < self.width as usize && y < self.height as usize } else { x < (self.width - self.padding_x) as usize && x >= self.padding_x as usize && y < (self.height - self.padding_y) as usize && y >= self.padding_y as usize } } pub fn pixels_to_coords(&self, x: usize, y: usize) -> Point { let col = Column(x.saturating_sub(self.padding_x as usize) / (self.cell_width as usize)); let line = Line(y.saturating_sub(self.padding_y as usize) / (self.cell_height as usize)); Point { line: min(line, Line(self.lines().saturating_sub(1))), col: min(col, Column(self.cols().saturating_sub(1))), } } } impl Term { pub fn selection(&self) -> &Option { &self.grid.selection } pub fn selection_mut(&mut self) -> &mut Option { &mut self.grid.selection } #[inline] pub fn get_next_title(&mut self) -> Option { self.next_title.take() } #[inline] pub fn scroll_display(&mut self, scroll: Scroll) { self.grid.scroll_display(scroll); self.reset_url_highlight(); self.dirty = true; } #[inline] pub fn get_next_mouse_cursor(&mut self) -> Option { self.next_mouse_cursor.take() } pub fn new( config: &Config, size: SizeInfo, message_buffer: MessageBuffer, clipboard: Clipboard, ) -> Term { let num_cols = size.cols(); let num_lines = size.lines(); let history_size = config.scrolling.history() as usize; let grid = Grid::new(num_lines, num_cols, history_size, Cell::default()); let alt = Grid::new(num_lines, num_cols, 0 /* scroll history */, Cell::default()); let tabspaces = config.tabspaces(); let tabs = TabStops::new(grid.num_cols(), tabspaces); let scroll_region = Line(0)..grid.num_lines(); let colors = color::List::from(&config.colors); Term { next_title: None, next_mouse_cursor: None, dirty: false, visual_bell: VisualBell::new(config), next_is_urgent: None, input_needs_wrap: false, grid, alt_grid: alt, alt: false, font_size: config.font.size, original_font_size: config.font.size, active_charset: Default::default(), cursor: Default::default(), cursor_save: Default::default(), cursor_save_alt: Default::default(), tabs, mode: Default::default(), scroll_region, size_info: size, colors, color_modified: [false; color::COUNT], original_colors: colors, semantic_escape_chars: config.selection.semantic_escape_chars().to_owned(), cursor_style: None, default_cursor_style: config.cursor.style, dynamic_title: config.dynamic_title(), tabspaces, auto_scroll: config.scrolling.auto_scroll, message_buffer, should_exit: false, clipboard, } } pub fn change_font_size(&mut self, delta: f32) { // Saturating addition with minimum font size FONT_SIZE_STEP let new_size = self.font_size + Size::new(delta); self.font_size = max(new_size, Size::new(FONT_SIZE_STEP)); self.dirty = true; } pub fn reset_font_size(&mut self) { self.font_size = self.original_font_size; self.dirty = true; } pub fn update_config(&mut self, config: &Config) { self.semantic_escape_chars = config.selection.semantic_escape_chars().to_owned(); self.original_colors.fill_named(&config.colors); self.original_colors.fill_cube(&config.colors); self.original_colors.fill_gray_ramp(&config.colors); for i in 0..color::COUNT { if !self.color_modified[i] { self.colors[i] = self.original_colors[i]; } } self.visual_bell.update_config(config); self.default_cursor_style = config.cursor.style; self.dynamic_title = config.dynamic_title(); self.auto_scroll = config.scrolling.auto_scroll; self.grid.update_history(config.scrolling.history() as usize, &self.cursor.template); } #[inline] pub fn needs_draw(&self) -> bool { self.dirty } pub fn selection_to_string(&self) -> Option { /// Need a generic push() for the Append trait trait PushChar { fn push_char(&mut self, c: char); fn maybe_newline(&mut self, grid: &Grid, line: usize, ending: Column) { if ending != Column(0) && !grid[line][ending - 1].flags.contains(cell::Flags::WRAPLINE) { self.push_char('\n'); } } } impl PushChar for String { #[inline] fn push_char(&mut self, c: char) { self.push(c); } } trait Append: PushChar { fn append( &mut self, grid: &Grid, tabs: &TabStops, line: usize, cols: Range, ); } impl Append for String { fn append( &mut self, grid: &Grid, tabs: &TabStops, mut line: usize, cols: Range, ) { // Select until last line still within the buffer line = min(line, grid.len() - 1); let grid_line = &grid[line]; let line_length = grid_line.line_length(); let line_end = min(line_length, cols.end + 1); if line_end.0 == 0 && cols.end >= grid.num_cols() - 1 { self.push('\n'); } else if cols.start < line_end { let mut tab_mode = false; for col in IndexRange::from(cols.start..line_end) { let cell = grid_line[col]; if tab_mode { // Skip over whitespace until next tab-stop once a tab was found if tabs[col] { tab_mode = false; } else if cell.c == ' ' { continue; } } if !cell.flags.contains(cell::Flags::WIDE_CHAR_SPACER) { self.push(cell.c); for c in (&cell.chars()[1..]).iter().filter(|c| **c != ' ') { self.push(*c); } } if cell.c == '\t' { tab_mode = true; } } if cols.end >= grid.num_cols() - 1 { self.maybe_newline(grid, line, line_end); } } } } let selection = self.grid.selection.clone()?; let Span { mut start, mut end } = selection.to_span(self)?; let mut res = String::new(); if start > end { ::std::mem::swap(&mut start, &mut end); } let line_count = end.line - start.line; let max_col = Column(usize::max_value() - 1); match line_count { // Selection within single line 0 => { res.append(&self.grid, &self.tabs, start.line, start.col..end.col); }, // Selection ends on line following start 1 => { // Ending line res.append(&self.grid, &self.tabs, end.line, end.col..max_col); // Starting line res.append(&self.grid, &self.tabs, start.line, Column(0)..start.col); }, // Multi line selection _ => { // Ending line res.append(&self.grid, &self.tabs, end.line, end.col..max_col); let middle_range = (start.line + 1)..(end.line); for line in middle_range.rev() { res.append(&self.grid, &self.tabs, line, Column(0)..max_col); } // Starting line res.append(&self.grid, &self.tabs, start.line, Column(0)..start.col); }, } Some(res) } pub(crate) fn visible_to_buffer(&self, point: Point) -> Point { self.grid.visible_to_buffer(point) } /// Convert the given pixel values to a grid coordinate /// /// The mouse coordinates are expected to be relative to the top left. The /// line and column returned are also relative to the top left. /// /// Returns None if the coordinates are outside the window, /// padding pixels are considered inside the window pub fn pixels_to_coords(&self, x: usize, y: usize) -> Option { if self.size_info.contains_point(x, y, true) { Some(self.size_info.pixels_to_coords(x, y)) } else { None } } /// Access to the raw grid data structure /// /// This is a bit of a hack; when the window is closed, the event processor /// serializes the grid state to a file. pub fn grid(&self) -> &Grid { &self.grid } /// Mutable access for swapping out the grid during tests #[cfg(test)] pub fn grid_mut(&mut self) -> &mut Grid { &mut self.grid } /// Iterate over the *renderable* cells in the terminal /// /// A renderable cell is any cell which has content other than the default /// background color. Cells with an alternate background color are /// considered renderable as are cells with any text content. pub fn renderable_cells<'b>( &'b self, config: &'b Config, window_focused: bool, ) -> RenderableCellsIter<'_> { let selection = self.grid.selection.as_ref().and_then(|s| s.to_span(self)); let cursor = if window_focused || !config.cursor.unfocused_hollow() { self.cursor_style.unwrap_or(self.default_cursor_style) } else { CursorStyle::HollowBlock }; RenderableCellsIter::new(&self, config, selection, cursor) } /// Resize terminal to new dimensions pub fn resize(&mut self, size: &SizeInfo) { debug!("Resizing terminal"); // Bounds check; lots of math assumes width and height are > 0 if size.width as usize <= 2 * self.size_info.padding_x as usize || size.height as usize <= 2 * self.size_info.padding_y as usize { return; } let old_cols = self.grid.num_cols(); let old_lines = self.grid.num_lines(); let mut num_cols = size.cols(); let mut num_lines = size.lines(); if let Some(message) = self.message_buffer.message() { num_lines -= message.text(size).len(); } self.size_info = *size; if old_cols == num_cols && old_lines == num_lines { debug!("Term::resize dimensions unchanged"); return; } self.grid.selection = None; self.alt_grid.selection = None; self.grid.url_highlight = None; // Should not allow less than 1 col, causes all sorts of checks to be required. if num_cols <= Column(1) { num_cols = Column(2); } // Should not allow less than 1 line, causes all sorts of checks to be required. if num_lines <= Line(1) { num_lines = Line(2); } // Scroll up to keep cursor in terminal if self.cursor.point.line >= num_lines { let lines = self.cursor.point.line - num_lines + 1; self.grid.scroll_up(&(Line(0)..old_lines), lines, &self.cursor.template); } // Scroll up alt grid as well if self.cursor_save_alt.point.line >= num_lines { let lines = self.cursor_save_alt.point.line - num_lines + 1; self.alt_grid.scroll_up(&(Line(0)..old_lines), lines, &self.cursor_save_alt.template); } // Move prompt down when growing if scrollback lines are available if num_lines > old_lines { if self.mode.contains(TermMode::ALT_SCREEN) { let growage = min(num_lines - old_lines, Line(self.alt_grid.scroll_limit())); self.cursor_save.point.line += growage; } else { let growage = min(num_lines - old_lines, Line(self.grid.scroll_limit())); self.cursor.point.line += growage; } } debug!("New num_cols is {} and num_lines is {}", num_cols, num_lines); // Resize grids to new size let alt_cursor_point = if self.mode.contains(TermMode::ALT_SCREEN) { &mut self.cursor_save.point } else { &mut self.cursor_save_alt.point }; self.grid.resize(num_lines, num_cols, &mut self.cursor.point, &Cell::default()); self.alt_grid.resize(num_lines, num_cols, alt_cursor_point, &Cell::default()); // Reset scrolling region to new size self.scroll_region = Line(0)..self.grid.num_lines(); // Ensure cursors are in-bounds. self.cursor.point.col = min(self.cursor.point.col, num_cols - 1); self.cursor.point.line = min(self.cursor.point.line, num_lines - 1); self.cursor_save.point.col = min(self.cursor_save.point.col, num_cols - 1); self.cursor_save.point.line = min(self.cursor_save.point.line, num_lines - 1); self.cursor_save_alt.point.col = min(self.cursor_save_alt.point.col, num_cols - 1); self.cursor_save_alt.point.line = min(self.cursor_save_alt.point.line, num_lines - 1); // Recreate tabs list self.tabs = TabStops::new(self.grid.num_cols(), self.tabspaces); } #[inline] pub fn size_info(&self) -> &SizeInfo { &self.size_info } #[inline] pub fn mode(&self) -> &TermMode { &self.mode } #[inline] pub fn cursor(&self) -> &Cursor { &self.cursor } pub fn swap_alt(&mut self) { if self.alt { let template = &self.cursor.template; self.grid.region_mut(..).each(|c| c.reset(template)); } self.alt = !self.alt; ::std::mem::swap(&mut self.grid, &mut self.alt_grid); } /// Scroll screen down /// /// Text moves down; clear at bottom /// Expects origin to be in scroll range. #[inline] fn scroll_down_relative(&mut self, origin: Line, mut lines: Line) { trace!("Scrolling down relative: origin={}, lines={}", origin, lines); lines = min(lines, self.scroll_region.end - self.scroll_region.start); lines = min(lines, self.scroll_region.end - origin); // Scroll between origin and bottom let mut template = self.cursor.template; template.flags = Flags::empty(); self.grid.scroll_down(&(origin..self.scroll_region.end), lines, &template); } /// Scroll screen up /// /// Text moves up; clear at top /// Expects origin to be in scroll range. #[inline] fn scroll_up_relative(&mut self, origin: Line, lines: Line) { trace!("Scrolling up relative: origin={}, lines={}", origin, lines); let lines = min(lines, self.scroll_region.end - self.scroll_region.start); // Scroll from origin to bottom less number of lines let mut template = self.cursor.template; template.flags = Flags::empty(); self.grid.scroll_up(&(origin..self.scroll_region.end), lines, &template); } fn deccolm(&mut self) { // Setting 132 column font makes no sense, but run the other side effects // Clear scrolling region let scroll_region = Line(0)..self.grid.num_lines(); self.set_scrolling_region(scroll_region); // Clear grid let template = self.cursor.template; self.grid.region_mut(..).each(|c| c.reset(&template)); } #[inline] pub fn background_color(&self) -> Rgb { self.colors[NamedColor::Background] } #[inline] pub fn message_buffer_mut(&mut self) -> &mut MessageBuffer { &mut self.message_buffer } #[inline] pub fn message_buffer(&self) -> &MessageBuffer { &self.message_buffer } #[inline] pub fn exit(&mut self) { self.should_exit = true; } #[inline] pub fn should_exit(&self) -> bool { self.should_exit } #[inline] pub fn set_url_highlight(&mut self, hl: RangeInclusive) { self.grid.url_highlight = Some(hl); } #[inline] pub fn reset_url_highlight(&mut self) { let mouse_mode = TermMode::MOUSE_MOTION | TermMode::MOUSE_DRAG | TermMode::MOUSE_REPORT_CLICK; let mouse_cursor = if self.mode().intersects(mouse_mode) { MouseCursor::Default } else { MouseCursor::Text }; self.set_mouse_cursor(mouse_cursor); self.grid.url_highlight = None; self.dirty = true; } pub fn clipboard(&mut self) -> &mut Clipboard { &mut self.clipboard } } impl ansi::TermInfo for Term { #[inline] fn lines(&self) -> Line { self.grid.num_lines() } #[inline] fn cols(&self) -> Column { self.grid.num_cols() } } impl ansi::Handler for Term { /// Set the window title #[inline] fn set_title(&mut self, title: &str) { if self.dynamic_title { self.next_title = Some(title.to_owned()); #[cfg(windows)] { // cmd.exe in winpty: winpty incorrectly sets the title to ' ' instead of // 'Alacritty' - thus we have to substitute this back to get equivalent // behaviour as conpty. // // The starts_with check is necessary because other shells e.g. bash set a // different title and don't need Alacritty prepended. if !tty::is_conpty() && title.starts_with(' ') { self.next_title = Some(format!("Alacritty {}", title.trim())); } } } } /// Set the mouse cursor #[inline] fn set_mouse_cursor(&mut self, cursor: MouseCursor) { self.next_mouse_cursor = Some(cursor); } /// A character to be displayed #[inline] fn input(&mut self, c: char) { // If enabled, scroll to bottom when character is received if self.auto_scroll { self.scroll_display(Scroll::Bottom); } if self.input_needs_wrap { if !self.mode.contains(TermMode::LINE_WRAP) { return; } trace!("Wrapping input"); { let location = Point { line: self.cursor.point.line, col: self.cursor.point.col }; let cell = &mut self.grid[&location]; cell.flags.insert(cell::Flags::WRAPLINE); } if (self.cursor.point.line + 1) >= self.scroll_region.end { self.linefeed(); } else { self.cursor.point.line += 1; } self.cursor.point.col = Column(0); self.input_needs_wrap = false; } // Number of cells the char will occupy if let Some(width) = c.width() { let num_cols = self.grid.num_cols(); // If in insert mode, first shift cells to the right. if self.mode.contains(TermMode::INSERT) && self.cursor.point.col + width < num_cols { let line = self.cursor.point.line; let col = self.cursor.point.col; let line = &mut self.grid[line]; let src = line[col..].as_ptr(); let dst = line[(col + width)..].as_mut_ptr(); unsafe { // memmove ptr::copy(src, dst, (num_cols - col - width).0); } } // Handle zero-width characters if width == 0 { let mut col = self.cursor.point.col.0.saturating_sub(1); let line = self.cursor.point.line; if self.grid[line][Column(col)].flags.contains(cell::Flags::WIDE_CHAR_SPACER) { col = col.saturating_sub(1); } self.grid[line][Column(col)].push_extra(c); return; } let cell = &mut self.grid[&self.cursor.point]; *cell = self.cursor.template; cell.c = self.cursor.charsets[self.active_charset].map(c); // Handle wide chars if width == 2 { cell.flags.insert(cell::Flags::WIDE_CHAR); if self.cursor.point.col + 1 < num_cols { self.cursor.point.col += 1; let spacer = &mut self.grid[&self.cursor.point]; *spacer = self.cursor.template; spacer.flags.insert(cell::Flags::WIDE_CHAR_SPACER); } } } if (self.cursor.point.col + 1) < self.grid.num_cols() { self.cursor.point.col += 1; } else { self.input_needs_wrap = true; } } #[inline] fn dectest(&mut self) { trace!("Dectesting"); let mut template = self.cursor.template; template.c = 'E'; self.grid.region_mut(..).each(|c| c.reset(&template)); } #[inline] fn goto(&mut self, line: Line, col: Column) { trace!("Going to: line={}, col={}", line, col); let (y_offset, max_y) = if self.mode.contains(TermMode::ORIGIN) { (self.scroll_region.start, self.scroll_region.end - 1) } else { (Line(0), self.grid.num_lines() - 1) }; self.cursor.point.line = min(line + y_offset, max_y); self.cursor.point.col = min(col, self.grid.num_cols() - 1); self.input_needs_wrap = false; } #[inline] fn goto_line(&mut self, line: Line) { trace!("Going to line: {}", line); self.goto(line, self.cursor.point.col) } #[inline] fn goto_col(&mut self, col: Column) { trace!("Going to column: {}", col); self.goto(self.cursor.point.line, col) } #[inline] fn insert_blank(&mut self, count: Column) { // Ensure inserting within terminal bounds let count = min(count, self.size_info.cols() - self.cursor.point.col); let source = self.cursor.point.col; let destination = self.cursor.point.col + count; let num_cells = (self.size_info.cols() - destination).0; let line = &mut self.grid[self.cursor.point.line]; unsafe { let src = line[source..].as_ptr(); let dst = line[destination..].as_mut_ptr(); ptr::copy(src, dst, num_cells); } // Cells were just moved out towards the end of the line; fill in // between source and dest with blanks. let template = self.cursor.template; for c in &mut line[source..destination] { c.reset(&template); } } #[inline] fn move_up(&mut self, lines: Line) { trace!("Moving up: {}", lines); let move_to = Line(self.cursor.point.line.0.saturating_sub(lines.0)); self.goto(move_to, self.cursor.point.col) } #[inline] fn move_down(&mut self, lines: Line) { trace!("Moving down: {}", lines); let move_to = self.cursor.point.line + lines; self.goto(move_to, self.cursor.point.col) } #[inline] fn move_forward(&mut self, cols: Column) { trace!("Moving forward: {}", cols); self.cursor.point.col = min(self.cursor.point.col + cols, self.grid.num_cols() - 1); self.input_needs_wrap = false; } #[inline] fn move_backward(&mut self, cols: Column) { trace!("Moving backward: {}", cols); self.cursor.point.col -= min(self.cursor.point.col, cols); self.input_needs_wrap = false; } #[inline] fn identify_terminal(&mut self, writer: &mut W) { let _ = writer.write_all(b"\x1b[?6c"); } #[inline] fn device_status(&mut self, writer: &mut W, arg: usize) { trace!("Reporting device status: {}", arg); match arg { 5 => { let _ = writer.write_all(b"\x1b[0n"); }, 6 => { let pos = self.cursor.point; let _ = write!(writer, "\x1b[{};{}R", pos.line + 1, pos.col + 1); }, _ => debug!("unknown device status query: {}", arg), }; } #[inline] fn move_down_and_cr(&mut self, lines: Line) { trace!("Moving down and cr: {}", lines); let move_to = self.cursor.point.line + lines; self.goto(move_to, Column(0)) } #[inline] fn move_up_and_cr(&mut self, lines: Line) { trace!("Moving up and cr: {}", lines); let move_to = Line(self.cursor.point.line.0.saturating_sub(lines.0)); self.goto(move_to, Column(0)) } #[inline] fn put_tab(&mut self, mut count: i64) { trace!("Putting tab: {}", count); while self.cursor.point.col < self.grid.num_cols() && count != 0 { count -= 1; let cell = &mut self.grid[&self.cursor.point]; if cell.c == ' ' { cell.c = self.cursor.charsets[self.active_charset].map('\t'); } loop { if (self.cursor.point.col + 1) == self.grid.num_cols() { break; } self.cursor.point.col += 1; if self.tabs[self.cursor.point.col] { break; } } } self.input_needs_wrap = false; } /// Backspace `count` characters #[inline] fn backspace(&mut self) { trace!("Backspace"); if self.cursor.point.col > Column(0) { self.cursor.point.col -= 1; self.input_needs_wrap = false; } } /// Carriage return #[inline] fn carriage_return(&mut self) { trace!("Carriage return"); self.cursor.point.col = Column(0); self.input_needs_wrap = false; } /// Linefeed #[inline] fn linefeed(&mut self) { trace!("Linefeed"); let next = self.cursor.point.line + 1; if next == self.scroll_region.end { self.scroll_up(Line(1)); } else if next < self.grid.num_lines() { self.cursor.point.line += 1; } } /// Set current position as a tabstop #[inline] fn bell(&mut self) { trace!("Bell"); self.visual_bell.ring(); self.next_is_urgent = Some(true); } #[inline] fn substitute(&mut self) { trace!("[unimplemented] Substitute"); } /// Run LF/NL /// /// LF/NL mode has some interesting history. According to ECMA-48 4th /// edition, in LINE FEED mode, /// /// > The execution of the formatter functions LINE FEED (LF), FORM FEED /// (FF), LINE TABULATION (VT) cause only movement of the active position in /// the direction of the line progression. /// /// In NEW LINE mode, /// /// > The execution of the formatter functions LINE FEED (LF), FORM FEED /// (FF), LINE TABULATION (VT) cause movement to the line home position on /// the following line, the following form, etc. In the case of LF this is /// referred to as the New Line (NL) option. /// /// Additionally, ECMA-48 4th edition says that this option is deprecated. /// ECMA-48 5th edition only mentions this option (without explanation) /// saying that it's been removed. /// /// As an emulator, we need to support it since applications may still rely /// on it. #[inline] fn newline(&mut self) { self.linefeed(); if self.mode.contains(TermMode::LINE_FEED_NEW_LINE) { self.carriage_return(); } } #[inline] fn set_horizontal_tabstop(&mut self) { trace!("Setting horizontal tabstop"); let column = self.cursor.point.col; self.tabs[column] = true; } #[inline] fn scroll_up(&mut self, lines: Line) { let origin = self.scroll_region.start; self.scroll_up_relative(origin, lines); } #[inline] fn scroll_down(&mut self, lines: Line) { let origin = self.scroll_region.start; self.scroll_down_relative(origin, lines); } #[inline] fn insert_blank_lines(&mut self, lines: Line) { trace!("Inserting blank {} lines", lines); if self.scroll_region.contains_(self.cursor.point.line) { let origin = self.cursor.point.line; self.scroll_down_relative(origin, lines); } } #[inline] fn delete_lines(&mut self, lines: Line) { trace!("Deleting {} lines", lines); if self.scroll_region.contains_(self.cursor.point.line) { let origin = self.cursor.point.line; self.scroll_up_relative(origin, lines); } } #[inline] fn erase_chars(&mut self, count: Column) { trace!("Erasing chars: count={}, col={}", count, self.cursor.point.col); let start = self.cursor.point.col; let end = min(start + count, self.grid.num_cols()); let row = &mut self.grid[self.cursor.point.line]; let template = self.cursor.template; // Cleared cells have current background color set for c in &mut row[start..end] { c.reset(&template); } } #[inline] fn delete_chars(&mut self, count: Column) { // Ensure deleting within terminal bounds let count = min(count, self.size_info.cols()); let start = self.cursor.point.col; let end = min(start + count, self.grid.num_cols() - 1); let n = (self.size_info.cols() - end).0; let line = &mut self.grid[self.cursor.point.line]; unsafe { let src = line[end..].as_ptr(); let dst = line[start..].as_mut_ptr(); ptr::copy(src, dst, n); } // Clear last `count` cells in line. If deleting 1 char, need to delete // 1 cell. let template = self.cursor.template; let end = self.size_info.cols() - count; for c in &mut line[end..] { c.reset(&template); } } #[inline] fn move_backward_tabs(&mut self, count: i64) { trace!("Moving backward {} tabs", count); for _ in 0..count { let mut col = self.cursor.point.col; for i in (0..(col.0)).rev() { if self.tabs[index::Column(i)] { col = index::Column(i); break; } } self.cursor.point.col = col; } } #[inline] fn move_forward_tabs(&mut self, count: i64) { trace!("[unimplemented] Moving forward {} tabs", count); } #[inline] fn save_cursor_position(&mut self) { trace!("Saving cursor position"); let cursor = if self.alt { &mut self.cursor_save_alt } else { &mut self.cursor_save }; *cursor = self.cursor; } #[inline] fn restore_cursor_position(&mut self) { trace!("Restoring cursor position"); let source = if self.alt { &self.cursor_save_alt } else { &self.cursor_save }; self.cursor = *source; self.cursor.point.line = min(self.cursor.point.line, self.grid.num_lines() - 1); self.cursor.point.col = min(self.cursor.point.col, self.grid.num_cols() - 1); } #[inline] fn clear_line(&mut self, mode: ansi::LineClearMode) { trace!("Clearing line: {:?}", mode); let mut template = self.cursor.template; template.flags ^= template.flags; let col = self.cursor.point.col; match mode { ansi::LineClearMode::Right => { let row = &mut self.grid[self.cursor.point.line]; for cell in &mut row[col..] { cell.reset(&template); } }, ansi::LineClearMode::Left => { let row = &mut self.grid[self.cursor.point.line]; for cell in &mut row[..=col] { cell.reset(&template); } }, ansi::LineClearMode::All => { let row = &mut self.grid[self.cursor.point.line]; for cell in &mut row[..] { cell.reset(&template); } }, } } /// Set the indexed color value #[inline] fn set_color(&mut self, index: usize, color: Rgb) { trace!("Setting color[{}] = {:?}", index, color); self.colors[index] = color; self.color_modified[index] = true; } /// Write a foreground/background color escape sequence with the current color #[inline] fn dynamic_color_sequence(&mut self, writer: &mut W, code: u8, index: usize) { trace!("Writing escape sequence for dynamic color code {}: color[{}]", code, index); let color = self.colors[index]; let _ = write!(writer, "\x1b]{};rgb:{:x}/{:x}/{:x}\x07", code, color.r, color.g, color.b); } /// Reset the indexed color to original value #[inline] fn reset_color(&mut self, index: usize) { trace!("Resetting color[{}]", index); self.colors[index] = self.original_colors[index]; self.color_modified[index] = false; } /// Set the clipboard #[inline] fn set_clipboard(&mut self, string: &str) { self.clipboard.store(ClipboardType::Primary, string); } #[inline] fn clear_screen(&mut self, mode: ansi::ClearMode) { trace!("Clearing screen: {:?}", mode); let mut template = self.cursor.template; template.flags ^= template.flags; // Remove active selections and URL highlights self.grid.selection = None; self.grid.url_highlight = None; match mode { ansi::ClearMode::Below => { for cell in &mut self.grid[self.cursor.point.line][self.cursor.point.col..] { cell.reset(&template); } if self.cursor.point.line < self.grid.num_lines() - 1 { self.grid .region_mut((self.cursor.point.line + 1)..) .each(|cell| cell.reset(&template)); } }, ansi::ClearMode::All => self.grid.region_mut(..).each(|c| c.reset(&template)), ansi::ClearMode::Above => { // If clearing more than one line if self.cursor.point.line > Line(1) { // Fully clear all lines before the current line self.grid .region_mut(..self.cursor.point.line) .each(|cell| cell.reset(&template)); } // Clear up to the current column in the current line let end = min(self.cursor.point.col + 1, self.grid.num_cols()); for cell in &mut self.grid[self.cursor.point.line][..end] { cell.reset(&template); } }, ansi::ClearMode::Saved => self.grid.clear_history(), } } #[inline] fn clear_tabs(&mut self, mode: ansi::TabulationClearMode) { trace!("Clearing tabs: {:?}", mode); match mode { ansi::TabulationClearMode::Current => { let column = self.cursor.point.col; self.tabs[column] = false; }, ansi::TabulationClearMode::All => { self.tabs.clear_all(); }, } } // Reset all important fields in the term struct #[inline] fn reset_state(&mut self) { if self.alt { self.swap_alt(); } self.input_needs_wrap = false; self.next_title = None; self.next_mouse_cursor = None; self.cursor = Default::default(); self.active_charset = Default::default(); self.mode = Default::default(); self.font_size = self.original_font_size; self.next_is_urgent = None; self.cursor_save = Default::default(); self.cursor_save_alt = Default::default(); self.colors = self.original_colors; self.color_modified = [false; color::COUNT]; self.cursor_style = None; self.grid.reset(&Cell::default()); self.alt_grid.reset(&Cell::default()); self.scroll_region = Line(0)..self.grid.num_lines(); } #[inline] fn reverse_index(&mut self) { trace!("Reversing index"); // if cursor is at the top if self.cursor.point.line == self.scroll_region.start { self.scroll_down(Line(1)); } else { self.cursor.point.line -= min(self.cursor.point.line, Line(1)); } } /// set a terminal attribute #[inline] fn terminal_attribute(&mut self, attr: Attr) { trace!("Setting attribute: {:?}", attr); match attr { Attr::Foreground(color) => self.cursor.template.fg = color, Attr::Background(color) => self.cursor.template.bg = color, Attr::Reset => { self.cursor.template.fg = Color::Named(NamedColor::Foreground); self.cursor.template.bg = Color::Named(NamedColor::Background); self.cursor.template.flags = cell::Flags::empty(); }, Attr::Reverse => self.cursor.template.flags.insert(cell::Flags::INVERSE), Attr::CancelReverse => self.cursor.template.flags.remove(cell::Flags::INVERSE), Attr::Bold => self.cursor.template.flags.insert(cell::Flags::BOLD), Attr::CancelBold => self.cursor.template.flags.remove(cell::Flags::BOLD), Attr::Dim => self.cursor.template.flags.insert(cell::Flags::DIM), Attr::CancelBoldDim => { self.cursor.template.flags.remove(cell::Flags::BOLD | cell::Flags::DIM) }, Attr::Italic => self.cursor.template.flags.insert(cell::Flags::ITALIC), Attr::CancelItalic => self.cursor.template.flags.remove(cell::Flags::ITALIC), Attr::Underscore => self.cursor.template.flags.insert(cell::Flags::UNDERLINE), Attr::CancelUnderline => self.cursor.template.flags.remove(cell::Flags::UNDERLINE), Attr::Hidden => self.cursor.template.flags.insert(cell::Flags::HIDDEN), Attr::CancelHidden => self.cursor.template.flags.remove(cell::Flags::HIDDEN), Attr::Strike => self.cursor.template.flags.insert(cell::Flags::STRIKEOUT), Attr::CancelStrike => self.cursor.template.flags.remove(cell::Flags::STRIKEOUT), _ => { debug!("Term got unhandled attr: {:?}", attr); }, } } #[inline] fn set_mode(&mut self, mode: ansi::Mode) { trace!("Setting mode: {:?}", mode); match mode { ansi::Mode::SwapScreenAndSetRestoreCursor => { if !self.alt { self.mode.insert(TermMode::ALT_SCREEN); self.save_cursor_position(); self.swap_alt(); self.save_cursor_position(); } }, ansi::Mode::ShowCursor => self.mode.insert(TermMode::SHOW_CURSOR), ansi::Mode::CursorKeys => self.mode.insert(TermMode::APP_CURSOR), ansi::Mode::ReportMouseClicks => { self.mode.insert(TermMode::MOUSE_REPORT_CLICK); self.set_mouse_cursor(MouseCursor::Default); }, ansi::Mode::ReportCellMouseMotion => { self.mode.insert(TermMode::MOUSE_DRAG); self.set_mouse_cursor(MouseCursor::Default); }, ansi::Mode::ReportAllMouseMotion => { self.mode.insert(TermMode::MOUSE_MOTION); self.set_mouse_cursor(MouseCursor::Default); }, ansi::Mode::ReportFocusInOut => self.mode.insert(TermMode::FOCUS_IN_OUT), ansi::Mode::BracketedPaste => self.mode.insert(TermMode::BRACKETED_PASTE), ansi::Mode::SgrMouse => self.mode.insert(TermMode::SGR_MOUSE), ansi::Mode::LineWrap => self.mode.insert(TermMode::LINE_WRAP), ansi::Mode::LineFeedNewLine => self.mode.insert(TermMode::LINE_FEED_NEW_LINE), ansi::Mode::Origin => self.mode.insert(TermMode::ORIGIN), ansi::Mode::DECCOLM => self.deccolm(), ansi::Mode::Insert => self.mode.insert(TermMode::INSERT), // heh ansi::Mode::BlinkingCursor => { trace!("... unimplemented mode"); }, } } #[inline] fn unset_mode(&mut self, mode: ansi::Mode) { trace!("Unsetting mode: {:?}", mode); match mode { ansi::Mode::SwapScreenAndSetRestoreCursor => { if self.alt { self.mode.remove(TermMode::ALT_SCREEN); self.restore_cursor_position(); self.swap_alt(); self.restore_cursor_position(); } }, ansi::Mode::ShowCursor => self.mode.remove(TermMode::SHOW_CURSOR), ansi::Mode::CursorKeys => self.mode.remove(TermMode::APP_CURSOR), ansi::Mode::ReportMouseClicks => { self.mode.remove(TermMode::MOUSE_REPORT_CLICK); self.set_mouse_cursor(MouseCursor::Text); }, ansi::Mode::ReportCellMouseMotion => { self.mode.remove(TermMode::MOUSE_DRAG); self.set_mouse_cursor(MouseCursor::Text); }, ansi::Mode::ReportAllMouseMotion => { self.mode.remove(TermMode::MOUSE_MOTION); self.set_mouse_cursor(MouseCursor::Text); }, ansi::Mode::ReportFocusInOut => self.mode.remove(TermMode::FOCUS_IN_OUT), ansi::Mode::BracketedPaste => self.mode.remove(TermMode::BRACKETED_PASTE), ansi::Mode::SgrMouse => self.mode.remove(TermMode::SGR_MOUSE), ansi::Mode::LineWrap => self.mode.remove(TermMode::LINE_WRAP), ansi::Mode::LineFeedNewLine => self.mode.remove(TermMode::LINE_FEED_NEW_LINE), ansi::Mode::Origin => self.mode.remove(TermMode::ORIGIN), ansi::Mode::DECCOLM => self.deccolm(), ansi::Mode::Insert => self.mode.remove(TermMode::INSERT), ansi::Mode::BlinkingCursor => { trace!("... unimplemented mode"); }, } } #[inline] fn set_scrolling_region(&mut self, region: Range) { trace!("Setting scrolling region: {:?}", region); self.scroll_region.start = min(region.start, self.grid.num_lines()); self.scroll_region.end = min(region.end, self.grid.num_lines()); self.goto(Line(0), Column(0)); } #[inline] fn set_keypad_application_mode(&mut self) { trace!("Setting keypad application mode"); self.mode.insert(TermMode::APP_KEYPAD); } #[inline] fn unset_keypad_application_mode(&mut self) { trace!("Unsetting keypad application mode"); self.mode.remove(TermMode::APP_KEYPAD); } #[inline] fn configure_charset(&mut self, index: CharsetIndex, charset: StandardCharset) { trace!("Configuring charset {:?} as {:?}", index, charset); self.cursor.charsets[index] = charset; } #[inline] fn set_active_charset(&mut self, index: CharsetIndex) { trace!("Setting active charset {:?}", index); self.active_charset = index; } #[inline] fn set_cursor_style(&mut self, style: Option) { trace!("Setting cursor style {:?}", style); self.cursor_style = style; } } struct TabStops { tabs: Vec, } impl TabStops { fn new(num_cols: Column, tabspaces: usize) -> TabStops { TabStops { tabs: IndexRange::from(Column(0)..num_cols) .map(|i| (*i as usize) % tabspaces == 0) .collect::>(), } } fn clear_all(&mut self) { unsafe { ptr::write_bytes(self.tabs.as_mut_ptr(), 0, self.tabs.len()); } } } impl Index for TabStops { type Output = bool; fn index(&self, index: Column) -> &bool { &self.tabs[index.0] } } impl IndexMut for TabStops { fn index_mut(&mut self, index: Column) -> &mut bool { self.tabs.index_mut(index.0) } } #[cfg(test)] mod tests { use std::mem; use font::Size; use serde_json; use crate::ansi::{self, CharsetIndex, Handler, StandardCharset}; use crate::clipboard::Clipboard; use crate::config::Config; use crate::grid::{Grid, Scroll}; use crate::index::{Column, Line, Point, Side}; use crate::input::FONT_SIZE_STEP; use crate::message_bar::MessageBuffer; use crate::selection::Selection; use crate::term::{cell, Cell, SizeInfo, Term}; #[test] fn semantic_selection_works() { 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, dpr: 1.0, }; let mut term = Term::new(&Default::default(), size, MessageBuffer::new(), Clipboard::new_nop()); let mut grid: Grid = Grid::new(Line(3), Column(5), 0, Cell::default()); for i in 0..5 { for j in 0..2 { grid[Line(j)][Column(i)].c = 'a'; } } grid[Line(0)][Column(0)].c = '"'; grid[Line(0)][Column(3)].c = '"'; grid[Line(1)][Column(2)].c = '"'; grid[Line(0)][Column(4)].flags.insert(cell::Flags::WRAPLINE); let mut escape_chars = String::from("\""); mem::swap(&mut term.grid, &mut grid); mem::swap(&mut term.semantic_escape_chars, &mut escape_chars); { *term.selection_mut() = Some(Selection::semantic(Point { line: 2, col: Column(1) })); assert_eq!(term.selection_to_string(), Some(String::from("aa"))); } { *term.selection_mut() = Some(Selection::semantic(Point { line: 2, col: Column(4) })); assert_eq!(term.selection_to_string(), Some(String::from("aaa"))); } { *term.selection_mut() = Some(Selection::semantic(Point { line: 1, col: Column(1) })); assert_eq!(term.selection_to_string(), Some(String::from("aaa"))); } } #[test] fn line_selection_works() { 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, dpr: 1.0, }; let mut term = Term::new(&Default::default(), size, MessageBuffer::new(), Clipboard::new_nop()); let mut grid: Grid = Grid::new(Line(1), Column(5), 0, Cell::default()); for i in 0..5 { grid[Line(0)][Column(i)].c = 'a'; } grid[Line(0)][Column(0)].c = '"'; grid[Line(0)][Column(3)].c = '"'; mem::swap(&mut term.grid, &mut grid); *term.selection_mut() = Some(Selection::lines(Point { line: 0, col: Column(3) })); assert_eq!(term.selection_to_string(), Some(String::from("\"aa\"a\n"))); } #[test] fn selecting_empty_line() { 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, dpr: 1.0, }; let mut term = Term::new(&Default::default(), size, MessageBuffer::new(), Clipboard::new_nop()); let mut grid: Grid = Grid::new(Line(3), Column(3), 0, Cell::default()); for l in 0..3 { if l != 1 { for c in 0..3 { grid[Line(l)][Column(c)].c = 'a'; } } } mem::swap(&mut term.grid, &mut grid); let mut selection = Selection::simple(Point { line: 2, col: Column(0) }, Side::Left); selection.update(Point { line: 0, col: Column(2) }, Side::Right); *term.selection_mut() = Some(selection); assert_eq!(term.selection_to_string(), Some("aaa\n\naaa\n".into())); } /// Check that the grid can be serialized back and forth losslessly /// /// This test is in the term module as opposed to the grid since we want to /// test this property with a T=Cell. #[test] fn grid_serde() { let template = Cell::default(); let grid: Grid = Grid::new(Line(24), Column(80), 0, template); let serialized = serde_json::to_string(&grid).expect("ser"); let deserialized = serde_json::from_str::>(&serialized).expect("de"); assert_eq!(deserialized, grid); } #[test] fn input_line_drawing_character() { 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, dpr: 1.0, }; let mut term = Term::new(&Default::default(), size, MessageBuffer::new(), Clipboard::new_nop()); let cursor = Point::new(Line(0), Column(0)); term.configure_charset(CharsetIndex::G0, StandardCharset::SpecialCharacterAndLineDrawing); term.input('a'); assert_eq!(term.grid()[&cursor].c, '▒'); } fn change_font_size_works(font_size: f32) { 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, dpr: 1.0, }; let config: Config = Default::default(); let mut term: Term = Term::new(&config, size, MessageBuffer::new(), Clipboard::new_nop()); term.change_font_size(font_size); let expected_font_size: Size = config.font.size + Size::new(font_size); assert_eq!(term.font_size, expected_font_size); } #[test] fn increase_font_size_works() { change_font_size_works(10.0); } #[test] fn decrease_font_size_works() { change_font_size_works(-10.0); } #[test] fn prevent_font_below_threshold_works() { 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, dpr: 1.0, }; let config: Config = Default::default(); let mut term: Term = Term::new(&config, size, MessageBuffer::new(), Clipboard::new_nop()); term.change_font_size(-100.0); let expected_font_size: Size = Size::new(FONT_SIZE_STEP); assert_eq!(term.font_size, expected_font_size); } #[test] fn reset_font_size_works() { 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, dpr: 1.0, }; let config: Config = Default::default(); let mut term: Term = Term::new(&config, size, MessageBuffer::new(), Clipboard::new_nop()); term.change_font_size(10.0); term.reset_font_size(); let expected_font_size: Size = config.font.size; assert_eq!(term.font_size, expected_font_size); } #[test] fn clear_saved_lines() { 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, dpr: 1.0, }; let config: Config = Default::default(); let mut term: Term = Term::new(&config, size, MessageBuffer::new(), Clipboard::new_nop()); // Add one line of scrollback term.grid.scroll_up(&(Line(0)..Line(1)), Line(1), &Cell::default()); // Clear the history term.clear_screen(ansi::ClearMode::Saved); // Make sure that scrolling does not change the grid let mut scrolled_grid = term.grid.clone(); scrolled_grid.scroll_display(Scroll::Top); assert_eq!(term.grid, scrolled_grid); } } #[cfg(all(test, feature = "bench"))] mod benches { extern crate serde_json as json; extern crate test; use std::fs::File; use std::io::Read; use std::mem; use std::path::Path; use crate::clipboard::Clipboard; use crate::config::Config; use crate::grid::Grid; use crate::message_bar::MessageBuffer; use super::cell::Cell; use super::{SizeInfo, Term}; fn read_string

(path: P) -> String where P: AsRef, { let mut res = String::new(); File::open(path.as_ref()).unwrap().read_to_string(&mut res).unwrap(); res } /// Benchmark for the renderable cells iterator /// /// The renderable cells iterator yields cells that require work to be /// displayed (that is, not a an empty background cell). This benchmark /// measures how long it takes to process the whole iterator. /// /// When this benchmark was first added, it averaged ~78usec on my macbook /// pro. The total render time for this grid is anywhere between ~1500 and /// ~2000usec (measured imprecisely with the visual meter). #[bench] fn render_iter(b: &mut test::Bencher) { // Need some realistic grid state; using one of the ref files. let serialized_grid = read_string(concat!( env!("CARGO_MANIFEST_DIR"), "/tests/ref/vim_large_window_scroll/grid.json" )); let serialized_size = read_string(concat!( env!("CARGO_MANIFEST_DIR"), "/tests/ref/vim_large_window_scroll/size.json" )); let mut grid: Grid = json::from_str(&serialized_grid).unwrap(); let size: SizeInfo = json::from_str(&serialized_size).unwrap(); let config = Config::default(); let mut terminal = Term::new(&config, size, MessageBuffer::new(), Clipboard::new_nop()); mem::swap(&mut terminal.grid, &mut grid); b.iter(|| { let iter = terminal.renderable_cells(&config, false); for cell in iter { test::black_box(cell); } }) } }