Refactored and commented code to be my expressive

2022-06-30 20:02:16 -07:00 · 2022-06-30 20:02:16 -07:00 · bcf5351e64
commit bcf5351e64
parent 092284b062
2 changed files with 94 additions and 52 deletions
--- a/crates/terminal/src/terminal.rs
+++ b/crates/terminal/src/terminal.rs
@ -25,7 +25,6 @@ use workspace::{Item, Workspace};
 use crate::terminal_element::{get_color_at_index, TerminalEl};
 //ASCII Control characters on a keyboard
 //Consts -> Structs -> Impls -> Functions, Vaguely in order of importance
 const ETX_CHAR: char = 3_u8 as char; //'End of text', the control code for 'ctrl-c'
 const TAB_CHAR: char = 9_u8 as char;
 const CARRIAGE_RETURN_CHAR: char = 13_u8 as char;
@ -39,9 +38,11 @@ const DEFAULT_TITLE: &str = "Terminal";
 pub mod terminal_element;
 ///Action for carrying the input to the PTY
 #[derive(Clone, Default, Debug, PartialEq, Eq)]
 pub struct Input(pub String);
 ///Event to transmit the scroll from the element to the view
 #[derive(Clone, Debug, PartialEq)]
 pub struct ScrollTerminal(pub i32);
@ -51,6 +52,7 @@ actions!(
 );
 impl_internal_actions!(terminal, [Input, ScrollTerminal]);
 ///Initialize and register all of our action handlers
 pub fn init(cx: &mut MutableAppContext) {
    cx.add_action(Terminal::deploy);
    cx.add_action(Terminal::write_to_pty);
@ -68,6 +70,7 @@ pub fn init(cx: &mut MutableAppContext) {
    cx.add_action(Terminal::scroll_terminal);
 }
 ///A translation struct for Alacritty to communicate with us from their event loop
 #[derive(Clone)]
 pub struct ZedListener(UnboundedSender<AlacTermEvent>);
@ -77,7 +80,7 @@ impl EventListener for ZedListener {
    }
 }
-///A terminal renderer.
+///A terminal view, maintains the PTY's file handles and communicates with the terminal
 pub struct Terminal {
    pty_tx: Notifier,
    term: Arc<FairMutex<Term<ZedListener>>>,
@ -87,6 +90,7 @@ pub struct Terminal {
    cur_size: SizeInfo,
 }
 ///Upward flowing events, for changing the title and such
 pub enum Event {
    TitleChanged,
    CloseTerminal,
@ -128,7 +132,8 @@ impl Terminal {
            ..Default::default()
        };
-        //The details here don't matter, the terminal will be resized on layout
+        //The details here don't matter, the terminal will be resized on the first layout
        //Set to something small for easier debugging
        let size_info = SizeInfo::new(200., 100.0, 5., 5., 0., 0., false);
        //Set up the terminal...
@ -169,7 +174,6 @@ impl Terminal {
        match event {
            AlacTermEvent::Wakeup => {
                if !cx.is_self_focused() {
                    //Need to figure out how to trigger a redraw when not in focus
                    self.has_new_content = true; //Change tab content
                    cx.emit(Event::TitleChanged);
                } else {
@ -207,6 +211,7 @@ impl Terminal {
                    let term_style = &cx.global::<Settings>().theme.terminal;
                    match index {
                        0..=255 => to_alac_rgb(get_color_at_index(&(index as u8), term_style)),
                        //These additional values are required to match the Alacritty Colors object's behavior
                        256 => to_alac_rgb(term_style.foreground),
                        257 => to_alac_rgb(term_style.background),
                        258 => to_alac_rgb(term_style.cursor),
@ -226,8 +231,7 @@ impl Terminal {
                self.write_to_pty(&Input(format(color)), cx)
            }
            AlacTermEvent::CursorBlinkingChange => {
-                //So, it's our job to set a timer and cause the cursor to blink here
+                //TODO: Set a timer to blink the cursor on and off
                //Which means that I'm going to put this off until someone @ Zed looks at it
            }
            AlacTermEvent::Bell => {
                self.has_bell = true;
@ -237,6 +241,7 @@ impl Terminal {
        }
    }
    ///Resize the terminal and the PTY. This locks the terminal.
    fn set_size(&mut self, new_size: SizeInfo) {
        if new_size != self.cur_size {
            self.pty_tx.0.send(Msg::Resize(new_size)).ok();
@ -245,18 +250,20 @@ impl Terminal {
        }
    }
    ///Scroll the terminal. This locks the terminal
    fn scroll_terminal(&mut self, scroll: &ScrollTerminal, _: &mut ViewContext<Self>) {
        self.term.lock().scroll_display(Scroll::Delta(scroll.0));
    }
-    ///Create a new Terminal
+    ///Create a new Terminal in the current working directory or the user's home directory
    fn deploy(workspace: &mut Workspace, _: &Deploy, cx: &mut ViewContext<Workspace>) {
        let project = workspace.project().read(cx);
        let abs_path = project
            .active_entry()
            .and_then(|entry_id| project.worktree_for_entry(entry_id, cx))
            .and_then(|worktree_handle| worktree_handle.read(cx).as_local())
-            .map(|wt| wt.abs_path().to_path_buf());
+            .map(|wt| wt.abs_path().to_path_buf())
            .or_else(|| Some("~".into()));
        workspace.add_item(Box::new(cx.add_view(|cx| Terminal::new(cx, abs_path))), cx);
    }
@ -266,16 +273,19 @@ impl Terminal {
        self.pty_tx.0.send(Msg::Shutdown).ok();
    }
    ///Tell Zed to close us
    fn quit(&mut self, _: &Quit, cx: &mut ViewContext<Self>) {
        cx.emit(Event::CloseTerminal);
    }
    ///Attempt to paste the clipboard into the terminal
    fn paste(&mut self, _: &Paste, cx: &mut ViewContext<Self>) {
        if let Some(item) = cx.read_from_clipboard() {
            self.write_to_pty(&Input(item.text().to_owned()), cx);
        }
    }
    ///Write the Input payload to the tty. This locks the terminal so we can scroll it.
    fn write_to_pty(&mut self, input: &Input, cx: &mut ViewContext<Self>) {
        //iTerm bell behavior, bell stays until terminal is interacted with
        self.has_bell = false;
@ -284,38 +294,47 @@ impl Terminal {
        self.pty_tx.notify(input.0.clone().into_bytes());
    }
    ///Send the `up` key
    fn up(&mut self, _: &Up, cx: &mut ViewContext<Self>) {
        self.write_to_pty(&Input(UP_SEQ.to_string()), cx);
    }
    ///Send the `down` key
    fn down(&mut self, _: &Down, cx: &mut ViewContext<Self>) {
        self.write_to_pty(&Input(DOWN_SEQ.to_string()), cx);
    }
    ///Send the `tab` key
    fn tab(&mut self, _: &Tab, cx: &mut ViewContext<Self>) {
        self.write_to_pty(&Input(TAB_CHAR.to_string()), cx);
    }
    ///Send `SIGINT` (`ctrl-c`)
    fn send_sigint(&mut self, _: &Sigint, cx: &mut ViewContext<Self>) {
        self.write_to_pty(&Input(ETX_CHAR.to_string()), cx);
    }
    ///Send the `escape` key
    fn escape(&mut self, _: &Escape, cx: &mut ViewContext<Self>) {
        self.write_to_pty(&Input(ESC_CHAR.to_string()), cx);
    }
    ///Send the `delete` key. TODO: Difference between this and backspace?
    fn del(&mut self, _: &Del, cx: &mut ViewContext<Self>) {
        self.write_to_pty(&Input(DEL_CHAR.to_string()), cx);
    }
    ///Send a carriage return. TODO: May need to check the terminal mode.
    fn carriage_return(&mut self, _: &Return, cx: &mut ViewContext<Self>) {
        self.write_to_pty(&Input(CARRIAGE_RETURN_CHAR.to_string()), cx);
    }
    //Send the `left` key
    fn left(&mut self, _: &Left, cx: &mut ViewContext<Self>) {
        self.write_to_pty(&Input(LEFT_SEQ.to_string()), cx);
    }
    //Send the `right` key
    fn right(&mut self, _: &Right, cx: &mut ViewContext<Self>) {
        self.write_to_pty(&Input(RIGHT_SEQ.to_string()), cx);
    }
@ -333,10 +352,7 @@ impl View for Terminal {
    }
    fn render(&mut self, cx: &mut gpui::RenderContext<'_, Self>) -> ElementBox {
-        TerminalEl::new(cx.handle())
+        TerminalEl::new(cx.handle()).contained().boxed()
            .contained()
            // .with_style(theme.terminal.container)
            .boxed()
    }
    fn on_focus(&mut self, cx: &mut ViewContext<Self>) {
@ -354,7 +370,7 @@ impl Item for Terminal {
        if self.has_bell {
            flex.add_child(
-                Svg::new("icons/zap.svg")
+                Svg::new("icons/zap.svg") //TODO: Swap out for a better icon, or at least resize this
                    .with_color(tab_theme.label.text.color)
                    .constrained()
                    .with_width(search_theme.tab_icon_width)
@ -437,6 +453,7 @@ impl Item for Terminal {
    }
 }
 //Convenience method for less lines
 fn to_alac_rgb(color: Color) -> AlacRgb {
    AlacRgb {
        r: color.r,
@ -451,6 +468,8 @@ mod tests {
    use crate::terminal_element::build_chunks;
    use gpui::TestAppContext;
    ///Basic integration test, can we get the terminal to show up, execute a command,
    //and produce noticable output?
    #[gpui::test]
    async fn test_terminal(cx: &mut TestAppContext) {
        let terminal = cx.add_view(Default::default(), |cx| Terminal::new(cx, None));
--- a/crates/terminal/src/terminal_element.rs
+++ b/crates/terminal/src/terminal_element.rs
@ -42,20 +42,21 @@ pub struct TerminalEl {
 ///Represents a span of cells in a single line in the terminal's grid.
 ///This is used for drawing background rectangles
 #[derive(Debug, Default, Copy, Clone, Eq, PartialEq, PartialOrd, Ord)]
-pub struct LineSpan {
+pub struct RectSpan {
    start: i32,
    end: i32,
    line: usize,
    color: Color,
 }
-impl LineSpan {
+///A background color span
 impl RectSpan {
    ///Creates a new LineSpan. `start` must be <= `end`.
    ///If `start` == `end`, then this span is considered to be over a
    /// single cell
-    fn new(start: i32, end: i32, line: usize, color: Color) -> LineSpan {
+    fn new(start: i32, end: i32, line: usize, color: Color) -> RectSpan {
        debug_assert!(start <= end);
-        LineSpan {
+        RectSpan {
            start,
            end,
            line,
@ -64,6 +65,7 @@ impl LineSpan {
    }
 }
 ///Helper types so I don't mix these two up
 struct CellWidth(f32);
 struct LineHeight(f32);
@ -117,11 +119,7 @@ impl Element for TerminalEl {
        //And we're off! Begin layouting
        let (chunks, line_count) = build_chunks(content.display_iter, &terminal_theme);
-        let backgrounds = chunks
+
            .iter()
            .filter(|(_, _, line_span)| line_span != &LineSpan::default())
            .map(|(_, _, line_span)| *line_span)
            .collect();
        let shaped_lines = layout_highlighted_chunks(
            chunks
                .iter()
@ -133,6 +131,11 @@ impl Element for TerminalEl {
            line_count,
        );
        let backgrounds = chunks
            .iter()
            .filter(|(_, _, line_span)| line_span != &RectSpan::default())
            .map(|(_, _, line_span)| *line_span)
            .collect();
        let background_rects = make_background_rects(backgrounds, &shaped_lines, &line_height);
        let cursor = make_cursor_rect(
@ -165,8 +168,10 @@ impl Element for TerminalEl {
        layout: &mut Self::LayoutState,
        cx: &mut gpui::PaintContext,
    ) -> Self::PaintState {
        //Setup element stuff
        cx.scene.push_layer(Some(visible_bounds));
        //Elements are ephemeral, only at paint time do we know what could be clicked by a mouse
        cx.scene.push_mouse_region(MouseRegion {
            view_id: self.view.id(),
            mouse_down: Some(Rc::new(|_, cx| cx.focus_parent_view())),
@ -236,26 +241,22 @@ impl Element for TerminalEl {
        match event {
            Event::ScrollWheel {
                delta, position, ..
-            } => {
+            } => visible_bounds
-                if visible_bounds.contains_point(*position) {
+                .contains_point(*position)
                .then(|| {
                    let vertical_scroll =
                        (delta.y() / layout.line_height.0) * ALACRITTY_SCROLL_MULTIPLIER;
                    cx.dispatch_action(ScrollTerminal(vertical_scroll.round() as i32));
-                    true
+                })
-                } else {
+                .is_some(),
                    false
                }
            }
            Event::KeyDown {
                input: Some(input), ..
-            } => {
+            } => cx
-                if cx.is_parent_view_focused() {
+                .is_parent_view_focused()
                .then(|| {
                    cx.dispatch_action(Input(input.to_string()));
-                    true
+                })
-                } else {
+                .is_some(),
                    false
                }
            }
            _ => false,
        }
    }
@ -303,11 +304,15 @@ fn make_new_size(
    )
 }
 ///In a single pass, this function generates the background and foreground color info for every item in the grid.
 pub(crate) fn build_chunks(
    grid_iterator: GridIterator<Cell>,
    theme: &TerminalStyle,
-) -> (Vec<(String, Option<HighlightStyle>, LineSpan)>, usize) {
+) -> (Vec<(String, Option<HighlightStyle>, RectSpan)>, usize) {
    let mut line_count: usize = 0;
    //Every `group_by()` -> `into_iter()` pair needs to be seperated by a local variable so
    //rust knows where to put everything.
    //Start by grouping by lines
    let lines = grid_iterator.group_by(|i| i.point.line.0);
    let result = lines
        .into_iter()
@ -315,10 +320,12 @@ pub(crate) fn build_chunks(
            line_count += 1;
            let mut col_index = 0;
            //Then group by style
            let chunks = line.group_by(|i| cell_style(&i, theme));
            chunks
                .into_iter()
                .map(|(style, fragment)| {
                    //And assemble the styled fragment into it's background and foreground information
                    let str_fragment = fragment.map(|indexed| indexed.c).collect::<String>();
                    let start = col_index;
                    let end = start + str_fragment.len() as i32;
@ -326,25 +333,30 @@ pub(crate) fn build_chunks(
                    (
                        str_fragment,
                        Some(style.0),
-                        LineSpan::new(start, end, line_count - 1, style.1), //Line count -> Line index
+                        RectSpan::new(start, end, line_count - 1, style.1), //Line count -> Line index
                    )
                })
                //Add a \n to the end, as we're using text layouting rather than grid layouts
                .chain(iter::once(("\n".to_string(), None, Default::default())))
-                .collect::<Vec<(String, Option<HighlightStyle>, LineSpan)>>()
+                .collect::<Vec<(String, Option<HighlightStyle>, RectSpan)>>()
        })
        //We have a Vec<Vec<>> (Vec of lines of styled chunks), flatten to just Vec<> (the styled chunks)
        .flatten()
-        .collect::<Vec<(String, Option<HighlightStyle>, LineSpan)>>();
+        .collect::<Vec<(String, Option<HighlightStyle>, RectSpan)>>();
    (result, line_count)
 }
 ///Convert a RectSpan in terms of character offsets, into RectFs of exact offsets
 fn make_background_rects(
-    backgrounds: Vec<LineSpan>,
+    backgrounds: Vec<RectSpan>,
    shaped_lines: &Vec<Line>,
    line_height: &LineHeight,
 ) -> Vec<(RectF, Color)> {
    backgrounds
        .into_iter()
        .map(|line_span| {
            //This should always be safe, as the shaped lines and backgrounds where derived
            //At the same time earlier
            let line = shaped_lines
                .get(line_span.line)
                .expect("Background line_num did not correspond to a line number");
@ -361,6 +373,7 @@ fn make_background_rects(
        .collect::<Vec<(RectF, Color)>>()
 }
 ///Create the rectangle for a cursor, exactly positioned according to the text
 fn make_cursor_rect(
    cursor_point: Point,
    shaped_lines: &Vec<Line>,
@ -378,10 +391,11 @@ fn make_cursor_rect(
    })
 }
 ///Convert the Alacritty cell styles to GPUI text styles and background color
 fn cell_style(indexed: &Indexed<&Cell>, style: &TerminalStyle) -> (HighlightStyle, Color) {
    let flags = indexed.cell.flags;
-    let fg = Some(alac_color_to_gpui_color(&indexed.cell.fg, style));
+    let fg = Some(convert_color(&indexed.cell.fg, style));
-    let bg = alac_color_to_gpui_color(&indexed.cell.bg, style);
+    let bg = convert_color(&indexed.cell.bg, style);
    let underline = flags.contains(Flags::UNDERLINE).then(|| Underline {
        color: fg,
@ -399,8 +413,10 @@ fn cell_style(indexed: &Indexed<&Cell>, style: &TerminalStyle) -> (HighlightStyl
    )
 }
-fn alac_color_to_gpui_color(alac_color: &AnsiColor, style: &TerminalStyle) -> Color {
+///Converts a 2, 8, or 24 bit color ANSI color to the GPUI equivalent
 fn convert_color(alac_color: &AnsiColor, style: &TerminalStyle) -> Color {
    match alac_color {
        //Named and theme defined colors
        alacritty_terminal::ansi::Color::Named(n) => match n {
            alacritty_terminal::ansi::NamedColor::Black => style.black,
            alacritty_terminal::ansi::NamedColor::Red => style.red,
@ -431,14 +447,18 @@ fn alac_color_to_gpui_color(alac_color: &AnsiColor, style: &TerminalStyle) -> Co
            alacritty_terminal::ansi::NamedColor::DimWhite => style.dim_white,
            alacritty_terminal::ansi::NamedColor::BrightForeground => style.bright_foreground,
            alacritty_terminal::ansi::NamedColor::DimForeground => style.dim_foreground,
-        }, //Theme defined
+        },
        //'True' colors
        alacritty_terminal::ansi::Color::Spec(rgb) => Color::new(rgb.r, rgb.g, rgb.b, u8::MAX),
-        alacritty_terminal::ansi::Color::Indexed(i) => get_color_at_index(i, style), //Color cube weirdness
+        //8 bit, indexed colors
        alacritty_terminal::ansi::Color::Indexed(i) => get_color_at_index(i, style),
    }
 }
 ///Converts an 8 bit ANSI color to it's GPUI equivalent.
 pub fn get_color_at_index(index: &u8, style: &TerminalStyle) -> Color {
    match index {
        //0-15 are the same as the named colors above
        0 => style.black,
        1 => style.red,
        2 => style.green,
@ -455,16 +475,17 @@ pub fn get_color_at_index(index: &u8, style: &TerminalStyle) -> Color {
        13 => style.bright_magenta,
        14 => style.bright_cyan,
        15 => style.bright_white,
        //16-231 are mapped to their RGB colors on a 0-5 range per channel
        16..=231 => {
-            let (r, g, b) = rgb_for_index(index); //Split the index into it's rgb components
+            let (r, g, b) = rgb_for_index(index); //Split the index into it's ANSI-RGB components
-            let step = (u8::MAX as f32 / 5.).floor() as u8; //Split the 256 channel range into 5 chunks
+            let step = (u8::MAX as f32 / 5.).floor() as u8; //Split the RGB range into 5 chunks, with floor so no overflow
-            Color::new(r * step, g * step, b * step, u8::MAX) //Map the [0, 5] rgb components to the [0, 256] channel range
+            Color::new(r * step, g * step, b * step, u8::MAX) //Map the ANSI-RGB components to an RGB color
        }
-        //Grayscale from black to white, 0 to 24
+        //232-255 are a 24 step grayscale from black to white
        232..=255 => {
            let i = index - 232; //Align index to 0..24
-            let step = (u8::MAX as f32 / 24.).floor() as u8; //Split the [0,256] range grayscale values into 24 chunks
+            let step = (u8::MAX as f32 / 24.).floor() as u8; //Split the RGB grayscale values into 24 chunks
-            Color::new(i * step, i * step, i * step, u8::MAX) //Map the rgb components to the grayscale range
+            Color::new(i * step, i * step, i * step, u8::MAX) //Map the ANSI-grayscale components to the RGB-grayscale
        }
    }
 }
@ -486,6 +507,8 @@ fn rgb_for_index(i: &u8) -> (u8, u8, u8) {
    (r, g, b)
 }
 ///Draws the grid as Alacritty sees it. Useful for checking if there is an inconsistency between
 ///Display and conceptual grid.
 #[cfg(debug_assertions)]
 fn draw_debug_grid(bounds: RectF, layout: &mut LayoutState, cx: &mut PaintContext) {
    let width = layout.cur_size.width();