// Copyright 2014-2015 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 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. //! Scoped thread-local storage //! //! This module provides the ability to generate *scoped* thread-local //! variables. In this sense, scoped indicates that thread local storage //! actually stores a reference to a value, and this reference is only placed //! in storage for a scoped amount of time. //! //! There are no restrictions on what types can be placed into a scoped //! variable, but all scoped variables are initialized to the equivalent of //! null. Scoped thread local storage is useful when a value is present for a known //! period of time and it is not required to relinquish ownership of the //! contents. //! //! # Examples //! //! ``` //! # #![feature(scoped_tls)] //! scoped_thread_local!(static FOO: u32); //! //! // Initially each scoped slot is empty. //! assert!(!FOO.is_set()); //! //! // When inserting a value, the value is only in place for the duration //! // of the closure specified. //! FOO.set(&1, || { //! FOO.with(|slot| { //! assert_eq!(*slot, 1); //! }); //! }); //! ``` #![unstable(feature = "thread_local_internals")] use prelude::v1::*; #[doc(hidden)] pub use self::imp::KeyInner as __KeyInner; /// Type representing a thread local storage key corresponding to a reference /// to the type parameter `T`. /// /// Keys are statically allocated and can contain a reference to an instance of /// type `T` scoped to a particular lifetime. Keys provides two methods, `set` /// and `with`, both of which currently use closures to control the scope of /// their contents. #[unstable(feature = "scoped_tls", reason = "scoped TLS has yet to have wide enough use to fully consider \ stabilizing its interface")] pub struct ScopedKey { inner: fn() -> &'static imp::KeyInner } /// Declare a new scoped thread local storage key. /// /// This macro declares a `static` item on which methods are used to get and /// set the value stored within. /// /// See [ScopedKey documentation](thread/struct.ScopedKey.html) for more /// information. #[macro_export] #[allow_internal_unstable] macro_rules! scoped_thread_local { (static $name:ident: $t:ty) => ( static $name: ::std::thread::ScopedKey<$t> = __scoped_thread_local_inner!($t); ); (pub static $name:ident: $t:ty) => ( pub static $name: ::std::thread::ScopedKey<$t> = __scoped_thread_local_inner!($t); ); } #[doc(hidden)] #[unstable(feature = "thread_local_internals", reason = "should not be necessary")] #[macro_export] #[allow_internal_unstable] #[cfg(no_elf_tls)] macro_rules! __scoped_thread_local_inner { ($t:ty) => {{ static _KEY: ::std::thread::__ScopedKeyInner<$t> = ::std::thread::__ScopedKeyInner::new(); fn _getit() -> &'static ::std::thread::__ScopedKeyInner<$t> { &_KEY } ::std::thread::ScopedKey::new(_getit) }} } #[doc(hidden)] #[unstable(feature = "thread_local_internals", reason = "should not be necessary")] #[macro_export] #[allow_internal_unstable] #[cfg(not(no_elf_tls))] macro_rules! __scoped_thread_local_inner { ($t:ty) => {{ #[cfg_attr(not(any(windows, target_os = "android", target_os = "ios", target_os = "openbsd", target_arch = "aarch64")), thread_local)] static _KEY: ::std::thread::__ScopedKeyInner<$t> = ::std::thread::__ScopedKeyInner::new(); fn _getit() -> &'static ::std::thread::__ScopedKeyInner<$t> { &_KEY } ::std::thread::ScopedKey::new(_getit) }} } #[unstable(feature = "scoped_tls", reason = "scoped TLS has yet to have wide enough use to fully consider \ stabilizing its interface")] impl ScopedKey { #[doc(hidden)] pub const fn new(inner: fn() -> &'static imp::KeyInner) -> ScopedKey { ScopedKey { inner: inner } } /// Inserts a value into this scoped thread local storage slot for a /// duration of a closure. /// /// While `cb` is running, the value `t` will be returned by `get` unless /// this function is called recursively inside of `cb`. /// /// Upon return, this function will restore the previous value, if any /// was available. /// /// # Examples /// /// ``` /// # #![feature(scoped_tls)] /// scoped_thread_local!(static FOO: u32); /// /// FOO.set(&100, || { /// let val = FOO.with(|v| *v); /// assert_eq!(val, 100); /// /// // set can be called recursively /// FOO.set(&101, || { /// // ... /// }); /// /// // Recursive calls restore the previous value. /// let val = FOO.with(|v| *v); /// assert_eq!(val, 100); /// }); /// ``` pub fn set(&'static self, t: &T, cb: F) -> R where F: FnOnce() -> R, { struct Reset<'a, T: 'a> { key: &'a imp::KeyInner, val: *mut T, } impl<'a, T> Drop for Reset<'a, T> { fn drop(&mut self) { unsafe { self.key.set(self.val) } } } let inner = (self.inner)(); let prev = unsafe { let prev = inner.get(); inner.set(t as *const T as *mut T); prev }; let _reset = Reset { key: inner, val: prev }; cb() } /// Gets a value out of this scoped variable. /// /// This function takes a closure which receives the value of this /// variable. /// /// # Panics /// /// This function will panic if `set` has not previously been called. /// /// # Examples /// /// ```no_run /// # #![feature(scoped_tls)] /// scoped_thread_local!(static FOO: u32); /// /// FOO.with(|slot| { /// // work with `slot` /// }); /// ``` pub fn with(&'static self, cb: F) -> R where F: FnOnce(&T) -> R { unsafe { let ptr = (self.inner)().get(); assert!(!ptr.is_null(), "cannot access a scoped thread local \ variable without calling `set` first"); cb(&*ptr) } } /// Test whether this TLS key has been `set` for the current thread. pub fn is_set(&'static self) -> bool { unsafe { !(self.inner)().get().is_null() } } } #[cfg(not(any(windows, target_os = "android", target_os = "ios", target_os = "openbsd", target_arch = "aarch64", no_elf_tls)))] #[doc(hidden)] mod imp { use std::cell::Cell; pub struct KeyInner { inner: Cell<*mut T> } unsafe impl ::marker::Sync for KeyInner { } impl KeyInner { pub const fn new() -> KeyInner { KeyInner { inner: Cell::new(0 as *mut _) } } pub unsafe fn set(&self, ptr: *mut T) { self.inner.set(ptr); } pub unsafe fn get(&self) -> *mut T { self.inner.get() } } } #[cfg(any(windows, target_os = "android", target_os = "ios", target_os = "openbsd", target_arch = "aarch64", no_elf_tls))] #[doc(hidden)] mod imp { use prelude::v1::*; use cell::Cell; use marker; use sys_common::thread_local::StaticKey as OsStaticKey; pub struct KeyInner { pub inner: OsStaticKey, pub marker: marker::PhantomData>, } unsafe impl marker::Sync for KeyInner { } impl KeyInner { pub const fn new() -> KeyInner { KeyInner { inner: OsStaticKey::new(None), marker: marker::PhantomData } } pub unsafe fn set(&self, ptr: *mut T) { self.inner.set(ptr as *mut _) } pub unsafe fn get(&self) -> *mut T { self.inner.get() as *mut _ } } } #[cfg(test)] mod tests { use cell::Cell; use prelude::v1::*; scoped_thread_local!(static FOO: u32); #[test] fn smoke() { scoped_thread_local!(static BAR: u32); assert!(!BAR.is_set()); BAR.set(&1, || { assert!(BAR.is_set()); BAR.with(|slot| { assert_eq!(*slot, 1); }); }); assert!(!BAR.is_set()); } #[test] fn cell_allowed() { scoped_thread_local!(static BAR: Cell); BAR.set(&Cell::new(1), || { BAR.with(|slot| { assert_eq!(slot.get(), 1); }); }); } #[test] fn scope_item_allowed() { assert!(!FOO.is_set()); FOO.set(&1, || { assert!(FOO.is_set()); FOO.with(|slot| { assert_eq!(*slot, 1); }); }); assert!(!FOO.is_set()); } }