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rust/src/libstd/sync/future.rs
Alex Crichton a9c1152c4b std: Add a new top-level thread_local module 
This commit removes the `std::local_data` module in favor of a new
`std::thread_local` module providing thread local storage. The module provides
two variants of TLS: one which owns its contents and one which is based on
scoped references. Each implementation has pros and cons listed in the
documentation.

Both flavors have accessors through a function called `with` which yield a
reference to a closure provided. Both flavors also panic if a reference cannot
be yielded and provide a function to test whether an access would panic or not.
This is an implementation of [RFC 461][rfc] and full details can be found in
that RFC.

This is a breaking change due to the removal of the `std::local_data` module.
All users can migrate to the new thread local system like so:

    thread_local!(static FOO: Rc<RefCell<Option<T>>> = Rc::new(RefCell::new(None)))

The old `local_data` module inherently contained the `Rc<RefCell<Option<T>>>` as
an implementation detail which must now be explicitly stated by users.

[rfc]: https://github.com/rust-lang/rfcs/pull/461
[breaking-change]
2014-11-23 23:37:16 -08:00

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// Copyright 2012-2013 The Rust Project Developers. See the COPYRIGHT
// file at the top-level directory of this distribution and at
// http://rust-lang.org/COPYRIGHT.
//
// Licensed under the Apache License, Version 2.0 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
/*!
* A type representing values that may be computed concurrently and
* operations for working with them.
*
* # Example
*
* ```rust
* use std::sync::Future;
* # fn fib(n: uint) -> uint {42};
* # fn make_a_sandwich() {};
* let mut delayed_fib = Future::spawn(proc() { fib(5000) });
* make_a_sandwich();
* println!("fib(5000) = {}", delayed_fib.get())
* ```
*/
#![allow(missing_docs)]
use core::prelude::*;
use core::mem::replace;
use self::FutureState::*;
use comm::{Receiver, channel};
use task::spawn;
/// A type encapsulating the result of a computation which may not be complete
pub struct Future<A> {
state: FutureState<A>,
}
enum FutureState<A> {
Pending(proc():Send -> A),
Evaluating,
Forced(A)
}
/// Methods on the `future` type
impl<A:Clone> Future<A> {
pub fn get(&mut self) -> A {
//! Get the value of the future.
(*(self.get_ref())).clone()
}
}
impl<A> Future<A> {
/// Gets the value from this future, forcing evaluation.
pub fn unwrap(mut self) -> A {
self.get_ref();
let state = replace(&mut self.state, Evaluating);
match state {
Forced(v) => v,
_ => panic!( "Logic error." ),
}
}
pub fn get_ref<'a>(&'a mut self) -> &'a A {
/*!
* Executes the future's closure and then returns a reference
* to the result. The reference lasts as long as
* the future.
*/
match self.state {
Forced(ref v) => return v,
Evaluating => panic!("Recursive forcing of future!"),
Pending(_) => {
match replace(&mut self.state, Evaluating) {
Forced(_) | Evaluating => panic!("Logic error."),
Pending(f) => {
self.state = Forced(f());
self.get_ref()
}
}
}
}
}
pub fn from_value(val: A) -> Future<A> {
/*!
* Create a future from a value.
*
* The value is immediately available and calling `get` later will
* not block.
*/
Future {state: Forced(val)}
}
pub fn from_fn(f: proc():Send -> A) -> Future<A> {
/*!
* Create a future from a function.
*
* The first time that the value is requested it will be retrieved by
* calling the function. Note that this function is a local
* function. It is not spawned into another task.
*/
Future {state: Pending(f)}
}
}
impl<A:Send> Future<A> {
pub fn from_receiver(rx: Receiver<A>) -> Future<A> {
/*!
* Create a future from a port
*
* The first time that the value is requested the task will block
* waiting for the result to be received on the port.
*/
Future::from_fn(proc() {
rx.recv()
})
}
pub fn spawn(blk: proc():Send -> A) -> Future<A> {
/*!
* Create a future from a unique closure.
*
* The closure will be run in a new task and its result used as the
* value of the future.
*/
let (tx, rx) = channel();
spawn(proc() {
// Don't panic if the other end has hung up
let _ = tx.send_opt(blk());
});
Future::from_receiver(rx)
}
}
#[cfg(test)]
mod test {
use prelude::*;
use sync::Future;
use task;
use comm::{channel, Sender};
#[test]
fn test_from_value() {
let mut f = Future::from_value("snail".to_string());
assert_eq!(f.get(), "snail".to_string());
}
#[test]
fn test_from_receiver() {
let (tx, rx) = channel();
tx.send("whale".to_string());
let mut f = Future::from_receiver(rx);
assert_eq!(f.get(), "whale".to_string());
}
#[test]
fn test_from_fn() {
let mut f = Future::from_fn(proc() "brail".to_string());
assert_eq!(f.get(), "brail".to_string());
}
#[test]
fn test_interface_get() {
let mut f = Future::from_value("fail".to_string());
assert_eq!(f.get(), "fail".to_string());
}
#[test]
fn test_interface_unwrap() {
let f = Future::from_value("fail".to_string());
assert_eq!(f.unwrap(), "fail".to_string());
}
#[test]
fn test_get_ref_method() {
let mut f = Future::from_value(22i);
assert_eq!(*f.get_ref(), 22);
}
#[test]
fn test_spawn() {
let mut f = Future::spawn(proc() "bale".to_string());
assert_eq!(f.get(), "bale".to_string());
}
#[test]
#[should_fail]
fn test_future_panic() {
let mut f = Future::spawn(proc() panic!());
let _x: String = f.get();
}
#[test]
fn test_sendable_future() {
let expected = "schlorf";
let (tx, rx) = channel();
let f = Future::spawn(proc() { expected });
task::spawn(proc() {
let mut f = f;
tx.send(f.get());
});
assert_eq!(rx.recv(), expected);
}
}
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