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fune/servo/components/script/timers.rs
Josh Matthews 2f1aaef81d servo: Merge #6874 - Start reporting memory usage for Window and all nodes in all DOM tree… (from jdm:domreporting); r=njn 
…s for frame treese in script tasks.

This underreports by a significant amount, since only Document, Window and CharacterData (ie. text) nodes are fully represented. That being said, every HTML element in the tree is measured, but only counted as a Node. It's easy to improve this, it just requires adding the appropriate HeapSizeOf derives and increasing the granularity of `measure_memory_for_eventtarget`. google.com shows a dom-tree value of 0.24 MB for me at the moment.

r? @nnethercote

Source-Repo: https://github.com/servo/servo
Source-Revision: 84e25befdd97cf74fb00707dbe150d59d980e977
2015-08-03 21:24:41 -06:00

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Rust
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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/. */
use dom::bindings::cell::DOMRefCell;
use dom::bindings::callback::ExceptionHandling::Report;
use dom::bindings::codegen::Bindings::FunctionBinding::Function;
use dom::bindings::global::global_object_for_js_object;
use dom::bindings::utils::Reflectable;
use dom::window::ScriptHelpers;
use script_task::{ScriptChan, ScriptMsg, TimerSource};
use horribly_inefficient_timers;
use util::mem::HeapSizeOf;
use util::task::spawn_named;
use util::str::DOMString;
use js::jsapi::{RootedValue, HandleValue, Heap};
use js::jsval::{JSVal, UndefinedValue};
use std::borrow::ToOwned;
use std::cell::Cell;
use std::cmp;
use std::collections::HashMap;
use std::sync::mpsc::{channel, Sender};
use std::sync::mpsc::Select;
use std::hash::{Hash, Hasher};
use std::rc::Rc;
use std::default::Default;
#[derive(JSTraceable, PartialEq, Eq, Copy, Clone, HeapSizeOf)]
pub struct TimerId(i32);
#[derive(JSTraceable, HeapSizeOf)]
#[privatize]
struct TimerHandle {
handle: TimerId,
data: TimerData,
#[ignore_heap_size_of = "channels are hard"]
control_chan: Option<Sender<TimerControlMsg>>,
}
#[derive(JSTraceable, Clone)]
pub enum TimerCallback {
StringTimerCallback(DOMString),
FunctionTimerCallback(Rc<Function>)
}
impl HeapSizeOf for TimerCallback {
fn heap_size_of_children(&self) -> usize {
// FIXME: Rc<T> isn't HeapSizeOf and we can't ignore it due to #6870 and #6871
0
}
}
impl Hash for TimerId {
fn hash<H: Hasher>(&self, state: &mut H) {
let TimerId(id) = *self;
id.hash(state);
}
}
impl TimerHandle {
fn cancel(&mut self) {
self.control_chan.as_ref().map(|chan| chan.send(TimerControlMsg::Cancel).ok());
}
fn suspend(&mut self) {
self.control_chan.as_ref().map(|chan| chan.send(TimerControlMsg::Suspend).ok());
}
fn resume(&mut self) {
self.control_chan.as_ref().map(|chan| chan.send(TimerControlMsg::Resume).ok());
}
}
#[derive(JSTraceable, HeapSizeOf)]
#[privatize]
pub struct TimerManager {
active_timers: DOMRefCell<HashMap<TimerId, TimerHandle>>,
next_timer_handle: Cell<i32>,
}
impl Drop for TimerManager {
fn drop(&mut self) {
for (_, timer_handle) in self.active_timers.borrow_mut().iter_mut() {
timer_handle.cancel();
}
}
}
// Enum allowing more descriptive values for the is_interval field
#[derive(JSTraceable, PartialEq, Copy, Clone, HeapSizeOf)]
pub enum IsInterval {
Interval,
NonInterval,
}
// Messages sent control timers from script task
#[derive(JSTraceable, PartialEq, Copy, Clone, Debug)]
pub enum TimerControlMsg {
Cancel,
Suspend,
Resume
}
// Holder for the various JS values associated with setTimeout
// (ie. function value to invoke and all arguments to pass
// to the function when calling it)
// TODO: Handle rooting during fire_timer when movable GC is turned on
#[derive(JSTraceable, HeapSizeOf)]
#[privatize]
struct TimerData {
is_interval: IsInterval,
callback: TimerCallback,
args: Vec<Heap<JSVal>>
}
impl TimerManager {
pub fn new() -> TimerManager {
TimerManager {
active_timers: DOMRefCell::new(HashMap::new()),
next_timer_handle: Cell::new(0)
}
}
pub fn suspend(&self) {
for (_, timer_handle) in self.active_timers.borrow_mut().iter_mut() {
timer_handle.suspend();
}
}
pub fn resume(&self) {
for (_, timer_handle) in self.active_timers.borrow_mut().iter_mut() {
timer_handle.resume();
}
}
#[allow(unsafe_code)]
pub fn set_timeout_or_interval(&self,
callback: TimerCallback,
arguments: Vec<HandleValue>,
timeout: i32,
is_interval: IsInterval,
source: TimerSource,
script_chan: Box<ScriptChan+Send>)
-> i32 {
let duration_ms = cmp::max(0, timeout) as u32;
let handle = self.next_timer_handle.get();
self.next_timer_handle.set(handle + 1);
// Spawn a new timer task; it will dispatch the `ScriptMsg::FireTimer`
// to the relevant script handler that will deal with it.
let (control_chan, control_port) = channel();
let spawn_name = match source {
TimerSource::FromWindow(_) if is_interval == IsInterval::Interval => "Window:SetInterval",
TimerSource::FromWorker if is_interval == IsInterval::Interval => "Worker:SetInterval",
TimerSource::FromWindow(_) => "Window:SetTimeout",
TimerSource::FromWorker => "Worker:SetTimeout",
}.to_owned();
spawn_named(spawn_name, move || {
let timeout_port = if is_interval == IsInterval::Interval {
horribly_inefficient_timers::periodic(duration_ms)
} else {
horribly_inefficient_timers::oneshot(duration_ms)
};
let control_port = control_port;
let select = Select::new();
let mut timeout_handle = select.handle(&timeout_port);
unsafe { timeout_handle.add() };
let mut control_handle = select.handle(&control_port);
unsafe { control_handle.add() };
loop {
let id = select.wait();
if id == timeout_handle.id() {
timeout_port.recv().unwrap();
if script_chan.send(ScriptMsg::FireTimer(source, TimerId(handle))).is_err() {
break;
}
if is_interval == IsInterval::NonInterval {
break;
}
} else if id == control_handle.id() {;
match control_port.recv().unwrap() {
TimerControlMsg::Suspend => {
let msg = control_port.recv().unwrap();
match msg {
TimerControlMsg::Suspend => panic!("Nothing to suspend!"),
TimerControlMsg::Resume => {},
TimerControlMsg::Cancel => {
break;
},
}
},
TimerControlMsg::Resume => panic!("Nothing to resume!"),
TimerControlMsg::Cancel => {
break;
}
}
}
}
});
let timer_id = TimerId(handle);
let timer = TimerHandle {
handle: timer_id,
control_chan: Some(control_chan),
data: TimerData {
is_interval: is_interval,
callback: callback,
args: Vec::with_capacity(arguments.len())
}
};
self.active_timers.borrow_mut().insert(timer_id, timer);
// This is a bit complicated, but this ensures that the vector's
// buffer isn't reallocated (and moved) after setting the Heap values
let mut timers = self.active_timers.borrow_mut();
let mut timer = timers.get_mut(&timer_id).unwrap();
for _ in 0..arguments.len() {
timer.data.args.push(Heap::default());
}
for i in 0..arguments.len() {
timer.data.args.get_mut(i).unwrap().set(arguments[i].get());
}
handle
}
pub fn clear_timeout_or_interval(&self, handle: i32) {
let mut timer_handle = self.active_timers.borrow_mut().remove(&TimerId(handle));
match timer_handle {
Some(ref mut handle) => handle.cancel(),
None => {}
}
}
pub fn fire_timer<T: Reflectable>(&self, timer_id: TimerId, this: &T) {
let (is_interval, callback, args): (IsInterval, TimerCallback, Vec<JSVal>) =
match self.active_timers.borrow().get(&timer_id) {
Some(timer_handle) =>
(timer_handle.data.is_interval,
timer_handle.data.callback.clone(),
timer_handle.data.args.iter().map(|arg| arg.get()).collect()),
None => return,
};
match callback {
TimerCallback::FunctionTimerCallback(function) => {
let arg_handles = args.iter().by_ref().map(|arg| HandleValue { ptr: arg }).collect();
let _ = function.Call_(this, arg_handles, Report);
}
TimerCallback::StringTimerCallback(code_str) => {
let proxy = this.reflector().get_jsobject();
let cx = global_object_for_js_object(proxy.get()).r().get_cx();
let mut rval = RootedValue::new(cx, UndefinedValue());
this.evaluate_js_on_global_with_result(&code_str, rval.handle_mut());
}
}
if is_interval == IsInterval::NonInterval {
self.active_timers.borrow_mut().remove(&timer_id);
}
}
}
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