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// 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.
//! The display subsystem including window management, font rasterization, and
//! GPU drawing.
use std::sync::mpsc;
use parking_lot::{MutexGuard};
use Rgb;
use cli;
use config::Config;
use font::{self, Rasterize};
use meter::Meter;
use renderer::{self, GlyphCache, QuadRenderer};
use selection::Selection;
use term::{Term, SizeInfo};
use window::{self, Size, Pixels, Window, SetInnerSize};
#[derive(Debug)]
pub enum Error {
/// Error with window management
Window(window::Error),
/// Error dealing with fonts
Font(font::Error),
/// Error in renderer
Render(renderer::Error),
}
impl ::std::error::Error for Error {
fn cause(&self) -> Option<&::std::error::Error> {
match *self {
Error::Window(ref err) => Some(err),
Error::Font(ref err) => Some(err),
Error::Render(ref err) => Some(err),
}
}
fn description(&self) -> &str {
match *self {
Error::Window(ref err) => err.description(),
Error::Font(ref err) => err.description(),
Error::Render(ref err) => err.description(),
}
}
}
impl ::std::fmt::Display for Error {
fn fmt(&self, f: &mut ::std::fmt::Formatter) -> ::std::fmt::Result {
match *self {
Error::Window(ref err) => err.fmt(f),
Error::Font(ref err) => err.fmt(f),
Error::Render(ref err) => err.fmt(f),
}
}
}
impl From<window::Error> for Error {
fn from(val: window::Error) -> Error {
Error::Window(val)
}
}
impl From<font::Error> for Error {
fn from(val: font::Error) -> Error {
Error::Font(val)
}
}
impl From<renderer::Error> for Error {
fn from(val: renderer::Error) -> Error {
Error::Render(val)
}
}
/// The display wraps a window, font rasterizer, and GPU renderer
pub struct Display {
window: Window,
renderer: QuadRenderer,
glyph_cache: GlyphCache,
render_timer: bool,
rx: mpsc::Receiver<(u32, u32)>,
tx: mpsc::Sender<(u32, u32)>,
meter: Meter,
size_info: SizeInfo,
}
/// Can wakeup the render loop from other threads
pub struct Notifier(window::Proxy);
/// Types that are interested in when the display is resized
pub trait OnResize {
fn on_resize(&mut self, size: &SizeInfo);
}
impl Notifier {
pub fn notify(&self) {
self.0.wakeup_event_loop();
}
}
impl Display {
pub fn notifier(&self) -> Notifier {
Notifier(self.window.create_window_proxy())
}
pub fn update_config(&mut self, config: &Config) {
self.render_timer = config.render_timer();
}
/// Get size info about the display
pub fn size(&self) -> &SizeInfo {
&self.size_info
}
pub fn new(
config: &Config,
options: &cli::Options,
) -> Result<Display, Error> {
// Extract some properties from config
let font = config.font();
let dpi = config.dpi();
let render_timer = config.render_timer();
// Create the window where Alacritty will be displayed
let mut window = Window::new(&options.title)?;
// get window properties for initializing the other subsytems
let size = window.inner_size_pixels()
.expect("glutin returns window size");
let dpr = window.hidpi_factor();
info!("device_pixel_ratio: {}", dpr);
let rasterizer = font::Rasterizer::new(dpi.x(), dpi.y(), dpr, config.use_thin_strokes())?;
// Create renderer
let mut renderer = QuadRenderer::new(size)?;
// Initialize glyph cache
let glyph_cache = {
info!("Initializing glyph cache");
let init_start = ::std::time::Instant::now();
let cache = renderer.with_loader(|mut api| {
GlyphCache::new(rasterizer, config, &mut api)
})?;
let stop = init_start.elapsed();
let stop_f = stop.as_secs() as f64 + stop.subsec_nanos() as f64 / 1_000_000_000f64;
info!("Finished initializing glyph cache in {}", stop_f);
cache
};
// Need font metrics to resize the window properly. This suggests to me the
// font metrics should be computed before creating the window in the first
// place so that a resize is not needed.
let metrics = glyph_cache.font_metrics();
let cell_width = (metrics.average_advance + font.offset().x() as f64) as u32;
let cell_height = (metrics.line_height + font.offset().y() as f64) as u32;
// Resize window to specified dimensions
let dimensions = options.dimensions()
.unwrap_or_else(|| config.dimensions());
let width = cell_width * dimensions.columns_u32() + 4;
let height = cell_height * dimensions.lines_u32() + 4;
let size = Size { width: Pixels(width), height: Pixels(height) };
info!("set_inner_size: {}", size);
window.set_inner_size(size);
renderer.resize(*size.width as _, *size.height as _);
info!("Cell Size: ({} x {})", cell_width, cell_height);
let size_info = SizeInfo {
width: *size.width as f32,
height: *size.height as f32,
cell_width: cell_width as f32,
cell_height: cell_height as f32
};
// Channel for resize events
//
// macOS has a callback for getting resize events, the channel is used
// to queue resize events until the next draw call. Unfortunately, it
// seems that the event loop is blocked until the window is done
// resizing. If any drawing were to happen during a resize, it would
// need to be in the callback.
let (tx, rx) = mpsc::channel();
// Clear screen
renderer.with_api(config, &size_info, 0. /* visual bell intensity */, |api| api.clear());
let mut display = Display {
window: window,
renderer: renderer,
glyph_cache: glyph_cache,
render_timer: render_timer,
tx: tx,
rx: rx,
meter: Meter::new(),
size_info: size_info,
};
let resize_tx = display.resize_channel();
let proxy = display.window.create_window_proxy();
display.window.set_resize_callback(move |width, height| {
let _ = resize_tx.send((width, height));
proxy.wakeup_event_loop();
});
Ok(display)
}
#[inline]
pub fn resize_channel(&self) -> mpsc::Sender<(u32, u32)> {
self.tx.clone()
}
pub fn window(&self) -> &Window {
&self.window
}
/// Process pending resize events
pub fn handle_resize(
&mut self,
terminal: &mut MutexGuard<Term>,
items: &mut [&mut OnResize]
) {
// Resize events new_size and are handled outside the poll_events
// iterator. This has the effect of coalescing multiple resize
// events into one.
let mut new_size = None;
// Take most recent resize event, if any
while let Ok(sz) = self.rx.try_recv() {
new_size = Some(sz);
}
// Receive any resize events; only call gl::Viewport on last
// available
if let Some((w, h)) = new_size.take() {
terminal.resize(w as f32, h as f32);
let size = terminal.size_info();
for mut item in items {
item.on_resize(size)
}
self.renderer.resize(w as i32, h as i32);
}
}
/// Draw the screen
///
/// A reference to Term whose state is being drawn must be provided.
///
/// This call may block if vsync is enabled
pub fn draw(&mut self, mut terminal: MutexGuard<Term>, config: &Config, selection: &Selection) {
// Clear dirty flag
terminal.dirty = !terminal.visual_bell.completed();
if let Some(title) = terminal.get_next_title() {
self.window.set_title(&title);
}
let size_info = *terminal.size_info();
let visual_bell_intensity = terminal.visual_bell.intensity();
{
let glyph_cache = &mut self.glyph_cache;
// Draw grid
{
let _sampler = self.meter.sampler();
// Make a copy of size_info since the closure passed here
// borrows terminal mutably
//
// TODO I wonder if the renderable cells iter could avoid the
// mutable borrow
self.renderer.with_api(config, &size_info, visual_bell_intensity, |mut api| {
// Draw the grid
api.render_cells(terminal.renderable_cells(config, selection), glyph_cache);
});
}
// Draw render timer
if self.render_timer {
let timing = format!("{:.3} usec", self.meter.average());
let color = Rgb { r: 0xd5, g: 0x4e, b: 0x53 };
self.renderer.with_api(config, &size_info, visual_bell_intensity, |mut api| {
api.render_string(&timing[..], glyph_cache, color);
});
}
}
// Unlock the terminal mutex; following call to swap_buffers() may block
drop(terminal);
self.window
.swap_buffers()
.expect("swap buffers");
// Clear after swap_buffers when terminal mutex isn't held. Mesa for
// some reason takes a long time to call glClear(). The driver descends
// into xcb_connect_to_fd() which ends up calling __poll_nocancel()
// which blocks for a while.
//
// By keeping this outside of the critical region, the Mesa bug is
// worked around to some extent. Since this doesn't actually address the
// issue of glClear being slow, less time is available for input
// handling and rendering.
self.renderer.with_api(config, &size_info, visual_bell_intensity, |api| {
api.clear();
});
}
}
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