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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 net_traits::ResourceTask;
use net_traits::image::base::{Image, load_from_memory};
use net_traits::image_cache_task::{ImageResponseMsg, ImageCacheTask, Msg};
use net_traits::image_cache_task::{load_image_data};
use profile::time::{self, profile};
use url::Url;
use std::borrow::ToOwned;
use std::collections::HashMap;
use std::collections::hash_map::Entry::{Occupied, Vacant};
use std::mem::replace;
use std::sync::{Arc, Mutex};
use std::sync::mpsc::{channel, Receiver, Sender};
use util::resource_files::resources_dir_path;
use util::task::spawn_named;
use util::taskpool::TaskPool;
pub trait ImageCacheTaskFactory {
fn new(resource_task: ResourceTask, task_pool: TaskPool,
time_profiler_chan: time::ProfilerChan,
load_placeholder: LoadPlaceholder) -> Self;
fn new_sync(resource_task: ResourceTask, task_pool: TaskPool,
time_profiler_chan: time::ProfilerChan,
load_placeholder: LoadPlaceholder) -> Self;
}
impl ImageCacheTaskFactory for ImageCacheTask {
fn new(resource_task: ResourceTask, task_pool: TaskPool,
time_profiler_chan: time::ProfilerChan,
load_placeholder: LoadPlaceholder) -> ImageCacheTask {
let (chan, port) = channel();
let chan_clone = chan.clone();
spawn_named("ImageCacheTask".to_owned(), move || {
let mut cache = ImageCache {
resource_task: resource_task,
port: port,
chan: chan_clone,
state_map: HashMap::new(),
wait_map: HashMap::new(),
need_exit: None,
task_pool: task_pool,
time_profiler_chan: time_profiler_chan,
placeholder_data: Arc::new(vec!()),
};
cache.run(load_placeholder);
});
ImageCacheTask {
chan: chan,
}
}
fn new_sync(resource_task: ResourceTask, task_pool: TaskPool,
time_profiler_chan: time::ProfilerChan,
load_placeholder: LoadPlaceholder) -> ImageCacheTask {
let (chan, port) = channel();
spawn_named("ImageCacheTask (sync)".to_owned(), move || {
let inner_cache: ImageCacheTask = ImageCacheTaskFactory::new(resource_task, task_pool,
time_profiler_chan, load_placeholder);
loop {
let msg: Msg = port.recv().unwrap();
match msg {
Msg::GetImage(url, response) => {
inner_cache.send(Msg::WaitForImage(url, response));
}
Msg::Exit(response) => {
inner_cache.send(Msg::Exit(response));
break;
}
msg => inner_cache.send(msg)
}
}
});
ImageCacheTask {
chan: chan,
}
}
}
struct ImageCache {
/// A handle to the resource task for fetching the image binaries
resource_task: ResourceTask,
/// The port on which we'll receive client requests
port: Receiver<Msg>,
/// A copy of the shared chan to give to child tasks
chan: Sender<Msg>,
/// The state of processing an image for a URL
state_map: HashMap<Url, ImageState>,
/// List of clients waiting on a WaitForImage response
wait_map: HashMap<Url, Arc<Mutex<Vec<Sender<ImageResponseMsg>>>>>,
need_exit: Option<Sender<()>>,
task_pool: TaskPool,
time_profiler_chan: time::ProfilerChan,
// Default image used when loading fails.
placeholder_data: Arc<Vec<u8>>,
}
#[derive(Clone)]
enum ImageState {
Init,
Prefetching(AfterPrefetch),
Prefetched(Vec<u8>),
Decoding,
Decoded(Arc<Box<Image>>),
Failed
}
#[derive(Clone)]
enum AfterPrefetch {
DoDecode,
DoNotDecode
}
pub enum LoadPlaceholder {
Preload,
Ignore
}
impl ImageCache {
// Used to preload the default placeholder.
fn init(&mut self) {
let mut placeholder_url = resources_dir_path();
// TODO (Savago): replace for a prettier one.
placeholder_url.push("rippy.jpg");
let image = load_image_data(Url::from_file_path(&*placeholder_url).unwrap(), self.resource_task.clone(), &self.placeholder_data);
match image {
Err(..) => debug!("image_cache_task: failed loading the placeholder."),
Ok(image_data) => self.placeholder_data = Arc::new(image_data),
}
}
pub fn run(&mut self, load_placeholder: LoadPlaceholder) {
// We have to load the placeholder before running.
match load_placeholder {
LoadPlaceholder::Preload => self.init(),
LoadPlaceholder::Ignore => debug!("image_cache_task: use old behavior."),
}
let mut store_chan: Option<Sender<()>> = None;
let mut store_prefetched_chan: Option<Sender<()>> = None;
loop {
let msg = self.port.recv().unwrap();
match msg {
Msg::Prefetch(url) => self.prefetch(url),
Msg::StorePrefetchedImageData(url, data) => {
store_prefetched_chan.map(|chan| {
chan.send(()).unwrap();
});
store_prefetched_chan = None;
self.store_prefetched_image_data(url, data);
}
Msg::Decode(url) => self.decode(url),
Msg::StoreImage(url, image) => {
store_chan.map(|chan| {
chan.send(()).unwrap();
});
store_chan = None;
self.store_image(url, image)
}
Msg::GetImage(url, response) => self.get_image(url, response),
Msg::WaitForImage(url, response) => {
self.wait_for_image(url, response)
}
Msg::WaitForStore(chan) => store_chan = Some(chan),
Msg::WaitForStorePrefetched(chan) => store_prefetched_chan = Some(chan),
Msg::Exit(response) => {
assert!(self.need_exit.is_none());
self.need_exit = Some(response);
}
}
let need_exit = replace(&mut self.need_exit, None);
match need_exit {
Some(response) => {
// Wait until we have no outstanding requests and subtasks
// before exiting
let mut can_exit = true;
for (_, state) in self.state_map.iter() {
match *state {
ImageState::Prefetching(..) => can_exit = false,
ImageState::Decoding => can_exit = false,
ImageState::Init | ImageState::Prefetched(..) |
ImageState::Decoded(..) | ImageState::Failed => ()
}
}
if can_exit {
response.send(()).unwrap();
break;
} else {
self.need_exit = Some(response);
}
}
None => ()
}
}
}
fn get_state(&self, url: &Url) -> ImageState {
match self.state_map.get(url) {
Some(state) => state.clone(),
None => ImageState::Init
}
}
fn set_state(&mut self, url: Url, state: ImageState) {
self.state_map.insert(url, state);
}
fn prefetch(&mut self, url: Url) {
match self.get_state(&url) {
ImageState::Init => {
let to_cache = self.chan.clone();
let resource_task = self.resource_task.clone();
let url_clone = url.clone();
let placeholder = self.placeholder_data.clone();
spawn_named("ImageCacheTask (prefetch)".to_owned(), move || {
let url = url_clone;
debug!("image_cache_task: started fetch for {}", url.serialize());
let image = load_image_data(url.clone(), resource_task.clone(), &placeholder);
to_cache.send(Msg::StorePrefetchedImageData(url.clone(), image)).unwrap();
debug!("image_cache_task: ended fetch for {}", url.serialize());
});
self.set_state(url, ImageState::Prefetching(AfterPrefetch::DoNotDecode));
}
ImageState::Prefetching(..) | ImageState::Prefetched(..) |
ImageState::Decoding | ImageState::Decoded(..) | ImageState::Failed => {
// We've already begun working on this image
}
}
}
fn store_prefetched_image_data(&mut self, url: Url, data: Result<Vec<u8>, ()>) {
match self.get_state(&url) {
ImageState::Prefetching(next_step) => {
match data {
Ok(data) => {
self.set_state(url.clone(), ImageState::Prefetched(data));
match next_step {
AfterPrefetch::DoDecode => self.decode(url),
_ => ()
}
}
Err(..) => {
self.set_state(url.clone(), ImageState::Failed);
self.purge_waiters(url, || ImageResponseMsg::ImageFailed);
}
}
}
ImageState::Init
| ImageState::Prefetched(..)
| ImageState::Decoding
| ImageState::Decoded(..)
| ImageState::Failed => {
panic!("wrong state for storing prefetched image")
}
}
}
fn decode(&mut self, url: Url) {
match self.get_state(&url) {
ImageState::Init => panic!("decoding image before prefetch"),
ImageState::Prefetching(AfterPrefetch::DoNotDecode) => {
// We don't have the data yet, queue up the decode
self.set_state(url, ImageState::Prefetching(AfterPrefetch::DoDecode))
}
ImageState::Prefetching(AfterPrefetch::DoDecode) => {
// We don't have the data yet, but the decode request is queued up
}
ImageState::Prefetched(data) => {
let to_cache = self.chan.clone();
let url_clone = url.clone();
let time_profiler_chan = self.time_profiler_chan.clone();
self.task_pool.execute(move || {
let url = url_clone;
debug!("image_cache_task: started image decode for {}", url.serialize());
let image = profile(time::ProfilerCategory::ImageDecoding,
None, time_profiler_chan, || {
load_from_memory(&data)
});
let image = image.map(|image| Arc::new(box image));
to_cache.send(Msg::StoreImage(url.clone(), image)).unwrap();
debug!("image_cache_task: ended image decode for {}", url.serialize());
});
self.set_state(url, ImageState::Decoding);
}
ImageState::Decoding | ImageState::Decoded(..) | ImageState::Failed => {
// We've already begun decoding
}
}
}
fn store_image(&mut self, url: Url, image: Option<Arc<Box<Image>>>) {
match self.get_state(&url) {
ImageState::Decoding => {
match image {
Some(image) => {
self.set_state(url.clone(), ImageState::Decoded(image.clone()));
self.purge_waiters(url, || ImageResponseMsg::ImageReady(image.clone()) );
}
None => {
self.set_state(url.clone(), ImageState::Failed);
self.purge_waiters(url, || ImageResponseMsg::ImageFailed );
}
}
}
ImageState::Init
| ImageState::Prefetching(..)
| ImageState::Prefetched(..)
| ImageState::Decoded(..)
| ImageState::Failed => {
panic!("incorrect state in store_image")
}
}
}
fn purge_waiters<F>(&mut self, url: Url, f: F) where F: Fn() -> ImageResponseMsg {
match self.wait_map.remove(&url) {
Some(waiters) => {
let items = waiters.lock().unwrap();
for response in items.iter() {
response.send(f()).unwrap();
}
}
None => ()
}
}
fn get_image(&self, url: Url, response: Sender<ImageResponseMsg>) {
match self.get_state(&url) {
ImageState::Init => panic!("request for image before prefetch"),
ImageState::Prefetching(AfterPrefetch::DoDecode) => response.send(ImageResponseMsg::ImageNotReady).unwrap(),
ImageState::Prefetching(AfterPrefetch::DoNotDecode) | ImageState::Prefetched(..) => panic!("request for image before decode"),
ImageState::Decoding => response.send(ImageResponseMsg::ImageNotReady).unwrap(),
ImageState::Decoded(image) => response.send(ImageResponseMsg::ImageReady(image)).unwrap(),
ImageState::Failed => response.send(ImageResponseMsg::ImageFailed).unwrap(),
}
}
fn wait_for_image(&mut self, url: Url, response: Sender<ImageResponseMsg>) {
match self.get_state(&url) {
ImageState::Init => panic!("request for image before prefetch"),
ImageState::Prefetching(AfterPrefetch::DoNotDecode) | ImageState::Prefetched(..) => panic!("request for image before decode"),
ImageState::Prefetching(AfterPrefetch::DoDecode) | ImageState::Decoding => {
// We don't have this image yet
match self.wait_map.entry(url) {
Occupied(mut entry) => {
entry.get_mut().lock().unwrap().push(response);
}
Vacant(entry) => {
entry.insert(Arc::new(Mutex::new(vec!(response))));
}
}
}
ImageState::Decoded(image) => {
response.send(ImageResponseMsg::ImageReady(image)).unwrap();
}
ImageState::Failed => {
response.send(ImageResponseMsg::ImageFailed).unwrap();
}
}
}
}
pub fn spawn_listener<F, A>(f: F) -> Sender<A>
where F: FnOnce(Receiver<A>) + Send + 'static,
A: Send + 'static
{
let (setup_chan, setup_port) = channel();
spawn_named("ImageCacheTask (listener)".to_owned(), move || {
let (chan, port) = channel();
setup_chan.send(chan).unwrap();
f(port);
});
setup_port.recv().unwrap()
}
|
