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/* This Source Code Form is subject to the terms of the Mozilla Public
* License, v. 2.0. If a copy of the MPL was not distributed with this
* file, You can obtain one at http://mozilla.org/MPL/2.0/. */
// The task that handles all rendering/painting.
use azure::{AzFloat, AzGLContext};
use azure::azure_hl::{B8G8R8A8, DrawTarget};
use display_list::DisplayList;
use servo_msg::compositor_msg::{RenderListener, IdleRenderState, RenderingRenderState, LayerBuffer};
use servo_msg::compositor_msg::{LayerBufferSet, Epoch};
use servo_msg::constellation_msg::PipelineId;
use font_context::FontContext;
use geom::matrix2d::Matrix2D;
use geom::size::Size2D;
use geom::rect::Rect;
use opts::Opts;
use render_context::RenderContext;
use std::cell::Cell;
use std::comm::{Chan, Port, SharedChan};
use servo_util::time::{ProfilerChan, profile};
use servo_util::time;
use extra::arc;
pub struct RenderLayer {
display_list: DisplayList<()>,
size: Size2D<uint>
}
pub enum Msg {
RenderMsg(RenderLayer),
ReRenderMsg(~[BufferRequest], f32, PipelineId, Epoch),
PaintPermissionGranted,
PaintPermissionRevoked,
ExitMsg(Chan<()>),
}
/// A request from the compositor to the renderer for tiles that need to be (re)displayed.
#[deriving(Clone)]
pub struct BufferRequest {
// The rect in pixels that will be drawn to the screen
screen_rect: Rect<uint>,
// The rect in page coordinates that this tile represents
page_rect: Rect<f32>,
}
pub fn BufferRequest(screen_rect: Rect<uint>, page_rect: Rect<f32>) -> BufferRequest {
BufferRequest {
screen_rect: screen_rect,
page_rect: page_rect,
}
}
#[deriving(Clone)]
pub struct RenderChan {
chan: SharedChan<Msg>,
}
impl RenderChan {
pub fn new(chan: Chan<Msg>) -> RenderChan {
RenderChan {
chan: SharedChan::new(chan),
}
}
pub fn send(&self, msg: Msg) {
self.chan.send(msg);
}
}
struct RenderTask<C> {
id: PipelineId,
port: Port<Msg>,
compositor: C,
font_ctx: @mut FontContext,
opts: Opts,
/// A channel to the profiler.
profiler_chan: ProfilerChan,
share_gl_context: AzGLContext,
/// The layer to be rendered
render_layer: Option<RenderLayer>,
/// Permission to send paint messages to the compositor
paint_permission: bool,
/// Cached copy of last layers rendered
last_paint_msg: Option<(arc::Arc<LayerBufferSet>, Size2D<uint>)>,
/// A counter for epoch messages
epoch: Epoch,
}
impl<C: RenderListener + Send> RenderTask<C> {
pub fn create(id: PipelineId,
port: Port<Msg>,
compositor: C,
opts: Opts,
profiler_chan: ProfilerChan) {
let compositor = Cell::new(compositor);
let opts = Cell::new(opts);
let port = Cell::new(port);
let profiler_chan = Cell::new(profiler_chan);
do spawn {
let compositor = compositor.take();
let share_gl_context = compositor.get_gl_context();
let opts = opts.take();
let profiler_chan = profiler_chan.take();
// FIXME: rust/#5967
let mut render_task = RenderTask {
id: id,
port: port.take(),
compositor: compositor,
font_ctx: @mut FontContext::new(opts.render_backend.clone(),
false,
profiler_chan.clone()),
opts: opts,
profiler_chan: profiler_chan,
share_gl_context: share_gl_context,
render_layer: None,
paint_permission: false,
last_paint_msg: None,
epoch: Epoch(0),
};
render_task.start();
}
}
fn start(&mut self) {
debug!("render_task: beginning rendering loop");
loop {
match self.port.recv() {
RenderMsg(render_layer) => {
if self.paint_permission {
self.epoch.next();
self.compositor.set_layer_page_size(self.id, render_layer.size, self.epoch);
}
self.render_layer = Some(render_layer);
}
ReRenderMsg(tiles, scale, id, epoch) => {
if self.epoch == epoch {
self.render(tiles, scale, id);
} else {
debug!("renderer epoch mismatch: %? != %?", self.epoch, epoch);
}
}
PaintPermissionGranted => {
self.paint_permission = true;
match self.render_layer {
Some(ref render_layer) => {
self.epoch.next();
self.compositor.set_layer_page_size(self.id, render_layer.size, self.epoch);
}
None => {}
}
}
PaintPermissionRevoked => {
self.paint_permission = false;
}
ExitMsg(response_ch) => {
response_ch.send(());
break;
}
}
}
}
fn render(&mut self, tiles: ~[BufferRequest], scale: f32, id: PipelineId) {
let render_layer;
match self.render_layer {
Some(ref r_layer) => {
render_layer = r_layer;
}
_ => return, // nothing to do
}
self.compositor.set_render_state(RenderingRenderState);
do time::profile(time::RenderingCategory, self.profiler_chan.clone()) {
// FIXME: Try not to create a new array here.
let mut new_buffers = ~[];
// Divide up the layer into tiles.
do time::profile(time::RenderingPrepBuffCategory, self.profiler_chan.clone()) {
for tile in tiles.iter() {
let width = tile.screen_rect.size.width;
let height = tile.screen_rect.size.height;
let buffer = LayerBuffer {
draw_target: DrawTarget::new_with_fbo(self.opts.render_backend,
self.share_gl_context,
Size2D(width as i32, height as i32),
B8G8R8A8),
rect: tile.page_rect,
screen_pos: tile.screen_rect,
resolution: scale,
stride: (width * 4) as uint
};
{
// Build the render context.
let ctx = RenderContext {
canvas: &buffer,
font_ctx: self.font_ctx,
opts: &self.opts
};
// Apply the translation to render the tile we want.
let matrix: Matrix2D<AzFloat> = Matrix2D::identity();
let matrix = matrix.scale(scale as AzFloat, scale as AzFloat);
let matrix = matrix.translate(-(buffer.rect.origin.x) as AzFloat,
-(buffer.rect.origin.y) as AzFloat);
ctx.canvas.draw_target.set_transform(&matrix);
// Clear the buffer.
ctx.clear();
// Draw the display list.
do profile(time::RenderingDrawingCategory, self.profiler_chan.clone()) {
render_layer.display_list.draw_into_context(&ctx);
ctx.canvas.draw_target.flush();
}
}
new_buffers.push(buffer);
}
}
let layer_buffer_set = LayerBufferSet {
buffers: new_buffers,
};
let layer_buffer_set = arc::Arc::new(layer_buffer_set);
debug!("render_task: returning surface");
if self.paint_permission {
self.compositor.paint(id, layer_buffer_set.clone(), self.epoch);
}
debug!("caching paint msg");
self.last_paint_msg = Some((layer_buffer_set, render_layer.size));
self.compositor.set_render_state(IdleRenderState);
}
}
}
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