/* 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/. */ // Servo, the mighty web browser engine from the future. // // This is a very simple library that wires all of Servo's components // together as type `Browser`, along with a generic client // implementing the `WindowMethods` trait, to create a working web // browser. // // The `Browser` type is responsible for configuring a // `Constellation`, which does the heavy lifting of coordinating all // of Servo's internal subsystems, including the `ScriptTask` and the // `LayoutTask`, as well maintains the navigation context. // // The `Browser` is fed events from a generic type that implements the // `WindowMethods` trait. extern crate compositing; extern crate devtools; extern crate devtools_traits; extern crate net; extern crate net_traits; extern crate msg; extern crate profile; extern crate profile_traits; #[macro_use] extern crate util; extern crate script; extern crate layout; extern crate gfx; extern crate libc; extern crate webdriver_server; use compositing::CompositorEventListener; use compositing::windowing::WindowEvent; use compositing::windowing::WindowMethods; use compositing::{CompositorProxy, CompositorTask, Constellation}; use msg::constellation_msg::Msg as ConstellationMsg; use msg::constellation_msg::ConstellationChan; use script::dom::bindings::codegen::RegisterBindings; use net::image_cache_task::new_image_cache_task; use net::storage_task::StorageTaskFactory; use net::resource_task::new_resource_task; use net_traits::storage_task::StorageTask; use gfx::font_cache_task::FontCacheTask; use profile::mem as profile_mem; use profile::time as profile_time; use profile_traits::mem; use profile_traits::time; use util::opts; use std::borrow::Borrow; use std::rc::Rc; use std::sync::mpsc::Sender; pub struct Browser { compositor: Box, } /// The in-process interface to Servo. /// /// It does everything necessary to render the web, primarily /// orchestrating the interaction between JavaScript, CSS layout, /// rendering, and the client window. /// /// Clients create a `Browser` for a given reference-counted type /// implementing `WindowMethods`, which is the bridge to whatever /// application Servo is embedded in. Clients then create an event /// loop to pump messages between the embedding application and /// various browser components. impl Browser { pub fn new(window: Option>) -> Browser where Window: WindowMethods + 'static { // Global configuration options, parsed from the command line. let opts = opts::get(); script::init(); // Create the global vtables used by the (generated) DOM // bindings to implement JS proxies. RegisterBindings::RegisterProxyHandlers(); // Get both endpoints of a special channel for communication between // the client window and the compositor. This channel is unique because // messages to client may need to pump a platform-specific event loop // to deliver the message. let (compositor_proxy, compositor_receiver) = WindowMethods::create_compositor_channel(&window); let supports_clipboard = match window { Some(ref win_rc) => { let win: &Window = win_rc.borrow(); win.supports_clipboard() } None => false }; let time_profiler_chan = profile_time::Profiler::create(opts.time_profiler_period); let mem_profiler_chan = profile_mem::Profiler::create(opts.mem_profiler_period); let devtools_chan = opts.devtools_port.map(|port| { devtools::start_server(port) }); // Create the constellation, which maintains the engine // pipelines, including the script and layout threads, as well // as the navigation context. let constellation_chan = create_constellation(opts.clone(), compositor_proxy.clone_compositor_proxy(), time_profiler_chan.clone(), devtools_chan, mem_profiler_chan.clone(), supports_clipboard); if let Some(port) = opts.webdriver_port { webdriver_server::start_server(port, constellation_chan.clone()); }; // The compositor coordinates with the client window to create the final // rendered page and display it somewhere. let compositor = CompositorTask::create(window, compositor_proxy, compositor_receiver, constellation_chan.clone(), time_profiler_chan, mem_profiler_chan); Browser { compositor: compositor, } } pub fn handle_events(&mut self, events: Vec) -> bool { self.compositor.handle_events(events) } pub fn repaint_synchronously(&mut self) { self.compositor.repaint_synchronously() } pub fn pinch_zoom_level(&self) -> f32 { self.compositor.pinch_zoom_level() } pub fn get_title_for_main_frame(&self) { self.compositor.get_title_for_main_frame() } pub fn shutdown(mut self) { self.compositor.shutdown(); } } fn create_constellation(opts: opts::Opts, compositor_proxy: Box, time_profiler_chan: time::ProfilerChan, devtools_chan: Option>, mem_profiler_chan: mem::ProfilerChan, supports_clipboard: bool) -> ConstellationChan { let resource_task = new_resource_task(opts.user_agent.clone(), devtools_chan.clone()); let image_cache_task = new_image_cache_task(resource_task.clone()); let font_cache_task = FontCacheTask::new(resource_task.clone()); let storage_task: StorageTask = StorageTaskFactory::new(); let constellation_chan = Constellation::::start( compositor_proxy, resource_task, image_cache_task, font_cache_task, time_profiler_chan, mem_profiler_chan, devtools_chan, storage_task, supports_clipboard); // Send the URL command to the constellation. match opts.url { Some(url) => { let ConstellationChan(ref chan) = constellation_chan; chan.send(ConstellationMsg::InitLoadUrl(url.clone())).unwrap(); }, None => () }; constellation_chan }