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//! Threads that can borrow variables from the stack. //! //! Create a scope when spawned threads need to access variables on the stack: //! //! ``` //! use crossbeam_utils::thread; //! //! let people = vec![ //! "Alice".to_string(), //! "Bob".to_string(), //! "Carol".to_string(), //! ]; //! //! thread::scope(|s| { //! for person in &people { //! s.spawn(move |_| { //! println!("Hello, {}!", person); //! }); //! } //! }).unwrap(); //! ``` //! //! # Why scoped threads? //! //! Suppose we wanted to re-write the previous example using plain threads: //! //! ```ignore //! use std::thread; //! //! let people = vec![ //! "Alice".to_string(), //! "Bob".to_string(), //! "Carol".to_string(), //! ]; //! //! let mut threads = Vec::new(); //! //! for person in &people { //! threads.push(thread::spawn(move |_| { //! println!("Hello, {}!", person); //! })); //! } //! //! for thread in threads { //! thread.join().unwrap(); //! } //! ``` //! //! This doesn't work because the borrow checker complains about `people` not living long enough: //! //! ```text //! error[E0597]: `people` does not live long enough //! --> src/main.rs:12:20 //! | //! 12 | for person in &people { //! | ^^^^^^ borrowed value does not live long enough //! ... //! 21 | } //! | - borrowed value only lives until here //! | //! = note: borrowed value must be valid for the static lifetime... //! ``` //! //! The problem here is that spawned threads are not allowed to borrow variables on stack because //! the compiler cannot prove they will be joined before `people` is destroyed. //! //! Scoped threads are a mechanism to guarantee to the compiler that spawned threads will be joined //! before the scope ends. //! //! # How scoped threads work //! //! If a variable is borrowed by a thread, the thread must complete before the variable is //! destroyed. Threads spawned using [`std::thread::spawn`] can only borrow variables with the //! `'static` lifetime because the borrow checker cannot be sure when the thread will complete. //! //! A scope creates a clear boundary between variables outside the scope and threads inside the //! scope. Whenever a scope spawns a thread, it promises to join the thread before the scope ends. //! This way we guarantee to the borrow checker that scoped threads only live within the scope and //! can safely access variables outside it. //! //! # Nesting scoped threads //! //! Sometimes scoped threads need to spawn more threads within the same scope. This is a little //! tricky because argument `s` lives *inside* the invocation of `thread::scope()` and as such //! cannot be borrowed by scoped threads: //! //! ```ignore //! use crossbeam_utils::thread; //! //! thread::scope(|s| { //! s.spawn(|_| { //! // Not going to compile because we're trying to borrow `s`, //! // which lives *inside* the scope! :( //! s.spawn(|_| println!("nested thread")); //! }); //! }); //! ``` //! //! Fortunately, there is a solution. Every scoped thread is passed a reference to its scope as an //! argument, which can be used for spawning nested threads: //! //! ``` //! use crossbeam_utils::thread; //! //! thread::scope(|s| { //! // Note the `|s|` here. //! s.spawn(|s| { //! // Yay, this works because we're using a fresh argument `s`! :) //! s.spawn(|_| println!("nested thread")); //! }); //! }); //! ``` //! //! [`std::thread::spawn`]: https://doc.rust-lang.org/std/thread/fn.spawn.html use std::fmt; use std::io; use std::marker::PhantomData; use std::mem; use std::panic; use std::sync::{Arc, Mutex}; use std::thread; use sync::WaitGroup; type SharedVec<T> = Arc<Mutex<Vec<T>>>; type SharedOption<T> = Arc<Mutex<Option<T>>>; /// Creates a new scope for spawning threads. /// /// All child threads that haven't been manually joined will be automatically joined just before /// this function invocation ends. If all joined threads have successfully completed, `Ok` is /// returned with the return value of `f`. If any of the joined threads has panicked, an `Err` is /// returned containing errors from panicked threads. /// /// # Examples /// /// ``` /// use crossbeam_utils::thread; /// /// let var = vec![1, 2, 3]; /// /// thread::scope(|s| { /// s.spawn(|_| { /// println!("A child thread borrowing `var`: {:?}", var); /// }); /// }).unwrap(); /// ``` pub fn scope<'env, F, R>(f: F) -> thread::Result<R> where F: FnOnce(&Scope<'env>) -> R, { let wg = WaitGroup::new(); let scope = Scope::<'env> { handles: SharedVec::default(), wait_group: wg.clone(), _marker: PhantomData, }; // Execute the scoped function, but catch any panics. let result = panic::catch_unwind(panic::AssertUnwindSafe(|| f(&scope))); // Wait until all nested scopes are dropped. drop(scope.wait_group); wg.wait(); // Join all remaining spawned threads. let panics: Vec<_> = { let mut handles = scope.handles.lock().unwrap(); // Filter handles that haven't been joined, join them, and collect errors. let panics = handles .drain(..) .filter_map(|handle| handle.lock().unwrap().take()) .filter_map(|handle| handle.join().err()) .collect(); panics }; // If `f` has panicked, resume unwinding. // If any of the child threads have panicked, return the panic errors. // Otherwise, everything is OK and return the result of `f`. match result { Err(err) => panic::resume_unwind(err), Ok(res) => { if panics.is_empty() { Ok(res) } else { Err(Box::new(panics)) } } } } /// A scope for spawning threads. pub struct Scope<'env> { /// The list of the thread join handles. handles: SharedVec<SharedOption<thread::JoinHandle<()>>>, /// Used to wait until all subscopes all dropped. wait_group: WaitGroup, /// Borrows data with invariant lifetime `'env`. _marker: PhantomData<&'env mut &'env ()>, } unsafe impl<'env> Sync for Scope<'env> {} impl<'env> Scope<'env> { /// Spawns a scoped thread. /// /// This method is similar to the [`spawn`] function in Rust's standard library. The difference /// is that this thread is scoped, meaning it's guaranteed to terminate before the scope exits, /// allowing it to reference variables outside the scope. /// /// The scoped thread is passed a reference to this scope as an argument, which can be used for /// spawning nested threads. /// /// The returned handle can be used to manually join the thread before the scope exits. /// /// [`spawn`]: https://doc.rust-lang.org/std/thread/fn.spawn.html /// /// # Examples /// /// ``` /// use crossbeam_utils::thread; /// /// thread::scope(|s| { /// let handle = s.spawn(|_| { /// println!("A child thread is running"); /// 42 /// }); /// /// // Join the thread and retrieve its result. /// let res = handle.join().unwrap(); /// assert_eq!(res, 42); /// }).unwrap(); /// ``` pub fn spawn<'scope, F, T>(&'scope self, f: F) -> ScopedJoinHandle<'scope, T> where F: FnOnce(&Scope<'env>) -> T, F: Send + 'env, T: Send + 'env, { self.builder().spawn(f).unwrap() } /// Creates a builder that can configure a thread before spawning. /// /// # Examples /// /// ``` /// use crossbeam_utils::thread; /// use std::thread::current; /// /// thread::scope(|s| { /// s.builder() /// .spawn(|_| println!("A child thread is running")) /// .unwrap(); /// }).unwrap(); /// ``` pub fn builder<'scope>(&'scope self) -> ScopedThreadBuilder<'scope, 'env> { ScopedThreadBuilder { scope: self, builder: thread::Builder::new(), } } } impl<'env> fmt::Debug for Scope<'env> { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { f.pad("Scope { .. }") } } /// Configures the properties of a new thread. /// /// The two configurable properties are: /// /// - [`name`]: Specifies an [associated name for the thread][naming-threads]. /// - [`stack_size`]: Specifies the [desired stack size for the thread][stack-size]. /// /// The [`spawn`] method will take ownership of the builder and return an [`io::Result`] of the /// thread handle with the given configuration. /// /// The [`Scope::spawn`] method uses a builder with default configuration and unwraps its return /// value. You may want to use this builder when you want to recover from a failure to launch a /// thread. /// /// # Examples /// /// ``` /// use crossbeam_utils::thread; /// /// thread::scope(|s| { /// s.builder() /// .spawn(|_| println!("Running a child thread")) /// .unwrap(); /// }).unwrap(); /// ``` /// /// [`name`]: struct.ScopedThreadBuilder.html#method.name /// [`stack_size`]: struct.ScopedThreadBuilder.html#method.stack_size /// [`spawn`]: struct.ScopedThreadBuilder.html#method.spawn /// [`Scope::spawn`]: struct.Scope.html#method.spawn /// [`io::Result`]: https://doc.rust-lang.org/std/io/type.Result.html /// [naming-threads]: https://doc.rust-lang.org/std/thread/index.html#naming-threads /// [stack-size]: https://doc.rust-lang.org/std/thread/index.html#stack-size #[derive(Debug)] pub struct ScopedThreadBuilder<'scope, 'env: 'scope> { scope: &'scope Scope<'env>, builder: thread::Builder, } impl<'scope, 'env> ScopedThreadBuilder<'scope, 'env> { /// Sets the name for the new thread. /// /// The name must not contain null bytes. For more information about named threads, see /// [here][naming-threads]. /// /// # Examples /// /// ``` /// use crossbeam_utils::thread; /// use std::thread::current; /// /// thread::scope(|s| { /// s.builder() /// .name("my thread".to_string()) /// .spawn(|_| assert_eq!(current().name(), Some("my thread"))) /// .unwrap(); /// }).unwrap(); /// ``` /// /// [naming-threads]: https://doc.rust-lang.org/std/thread/index.html#naming-threads pub fn name(mut self, name: String) -> ScopedThreadBuilder<'scope, 'env> { self.builder = self.builder.name(name); self } /// Sets the size of the stack for the new thread. /// /// The stack size is measured in bytes. /// /// # Examples /// /// ``` /// use crossbeam_utils::thread; /// /// thread::scope(|s| { /// s.builder() /// .stack_size(32 * 1024) /// .spawn(|_| println!("Running a child thread")) /// .unwrap(); /// }).unwrap(); /// ``` pub fn stack_size(mut self, size: usize) -> ScopedThreadBuilder<'scope, 'env> { self.builder = self.builder.stack_size(size); self } /// Spawns a scoped thread with this configuration. /// /// The scoped thread is passed a reference to this scope as an argument, which can be used for /// spawning nested threads. /// /// The returned handle can be used to manually join the thread before the scope exits. /// /// # Examples /// /// ``` /// use crossbeam_utils::thread; /// /// thread::scope(|s| { /// let handle = s.builder() /// .spawn(|_| { /// println!("A child thread is running"); /// 42 /// }) /// .unwrap(); /// /// // Join the thread and retrieve its result. /// let res = handle.join().unwrap(); /// assert_eq!(res, 42); /// }).unwrap(); /// ``` pub fn spawn<F, T>(self, f: F) -> io::Result<ScopedJoinHandle<'scope, T>> where F: FnOnce(&Scope<'env>) -> T, F: Send + 'env, T: Send + 'env, { // The result of `f` will be stored here. let result = SharedOption::default(); // Spawn the thread and grab its join handle and thread handle. let (handle, thread) = { let result = Arc::clone(&result); // A clone of the scope that will be moved into the new thread. let scope = Scope::<'env> { handles: Arc::clone(&self.scope.handles), wait_group: self.scope.wait_group.clone(), _marker: PhantomData, }; // Spawn the thread. let handle = { let closure = move || { // Make sure the scope is inside the closure with the proper `'env` lifetime. let scope: Scope<'env> = scope; // Run the closure. let res = f(&scope); // Store the result if the closure didn't panic. *result.lock().unwrap() = Some(res); }; // Change the type of `closure` from `FnOnce() -> T` to `FnMut() -> T`. let mut closure = Some(closure); let closure = move || closure.take().unwrap()(); // Allocate `clsoure` on the heap and erase the `'env` bound. let closure: Box<FnMut() + Send + 'env> = Box::new(closure); let closure: Box<FnMut() + Send + 'static> = unsafe { mem::transmute(closure) }; // Finally, spawn the closure. let mut closure = closure; self.builder.spawn(move || closure())? }; let thread = handle.thread().clone(); let handle = Arc::new(Mutex::new(Some(handle))); (handle, thread) }; // Add the handle to the shared list of join handles. self.scope.handles.lock().unwrap().push(Arc::clone(&handle)); Ok(ScopedJoinHandle { handle, result, thread, _marker: PhantomData, }) } } unsafe impl<'scope, T> Send for ScopedJoinHandle<'scope, T> {} unsafe impl<'scope, T> Sync for ScopedJoinHandle<'scope, T> {} /// A handle that can be used to join its scoped thread. pub struct ScopedJoinHandle<'scope, T> { /// A join handle to the spawned thread. handle: SharedOption<thread::JoinHandle<()>>, /// Holds the result of the inner closure. result: SharedOption<T>, /// A handle to the the spawned thread. thread: thread::Thread, /// Borrows the parent scope with lifetime `'scope`. _marker: PhantomData<&'scope ()>, } impl<'scope, T> ScopedJoinHandle<'scope, T> { /// Waits for the thread to finish and returns its result. /// /// If the child thread panics, an error is returned. /// /// # Panics /// /// This function may panic on some platforms if a thread attempts to join itself or otherwise /// may create a deadlock with joining threads. /// /// # Examples /// /// ``` /// use crossbeam_utils::thread; /// /// thread::scope(|s| { /// let handle1 = s.spawn(|_| println!("I'm a happy thread :)")); /// let handle2 = s.spawn(|_| panic!("I'm a sad thread :(")); /// /// // Join the first thread and verify that it succeeded. /// let res = handle1.join(); /// assert!(res.is_ok()); /// /// // Join the second thread and verify that it panicked. /// let res = handle2.join(); /// assert!(res.is_err()); /// }).unwrap(); /// ``` pub fn join(self) -> thread::Result<T> { // Take out the handle. The handle will surely be available because the root scope waits // for nested scopes before joining remaining threads. let handle = self.handle.lock().unwrap().take().unwrap(); // Join the thread and then take the result out of its inner closure. handle .join() .map(|()| self.result.lock().unwrap().take().unwrap()) } /// Returns a handle to the underlying thread. /// /// # Examples /// /// ``` /// use crossbeam_utils::thread; /// /// thread::scope(|s| { /// let handle = s.spawn(|_| println!("A child thread is running")); /// println!("The child thread ID: {:?}", handle.thread().id()); /// }).unwrap(); /// ``` pub fn thread(&self) -> &thread::Thread { &self.thread } } impl<'scope, T> fmt::Debug for ScopedJoinHandle<'scope, T> { fn fmt(&self, f: &mut fmt::Formatter) -> fmt::Result { f.pad("ScopedJoinHandle { .. }") } }