src/lazy.rs - platform/external/rust/crates/protobuf - Git at Google

 //! Lazily initialized data.
 //! Used in generated code.

 // Avoid deprecation warnings when compiling rust-protobuf
 #![allow(deprecated)]

 use std::mem;
 use std::sync;

 /// Lasily initialized data.
 #[deprecated(
     since = "2.16",
     note = "Please regenerate .rs files from .proto files to use newer APIs"
 )]
 pub struct Lazy<T> {
     #[doc(hidden)]
     pub lock: sync::Once,
     #[doc(hidden)]
     pub ptr: *const T,
 }

 impl<T> Lazy<T> {
     /// Uninitialized `Lazy` object.
     ///
     /// The initializer is added in rust-protobuf 2.11, for compatibility with
     /// previously generated code, existing fields are kept public.
     pub const INIT: Lazy<T> = Lazy {
         lock: sync::Once::new(),
         ptr: 0 as *const T,
     };

     /// Get lazy field value, initialize it with given function if not yet.
     pub fn get<F>(&'static mut self, init: F) -> &'static T
     where
         F: FnOnce() -> T,
     {
         // ~ decouple the lifetimes of 'self' and 'self.lock' such we
         // can initialize self.ptr in the call_once closure (note: we
         // do have to initialize self.ptr in the closure to guarantee
         // the ptr is valid for all calling threads at any point in
         // time)
         let lock: &sync::Once = unsafe { mem::transmute(&self.lock) };
         lock.call_once(|| unsafe {
             self.ptr = mem::transmute(Box::new(init()));
         });
         unsafe { &*self.ptr }
     }
 }

 /// Used to initialize `lock` field in `Lazy` struct.
 #[deprecated(
     since = "2.11",
     note = "Regenerate .proto files to use safer initializer"
 )]
 pub const ONCE_INIT: sync::Once = sync::Once::new();

 #[cfg(test)]
 mod test {
     use super::Lazy;
     use std::sync::atomic::AtomicIsize;
     use std::sync::atomic::Ordering;
     use std::sync::Arc;
     use std::sync::Barrier;
     use std::thread;

     #[test]
     fn many_threads_calling_get() {
         const N_THREADS: usize = 32;
         const N_ITERS_IN_THREAD: usize = 32;
         const N_ITERS: usize = 16;

         static mut LAZY: Lazy<String> = Lazy::INIT;
         static CALL_COUNT: AtomicIsize = AtomicIsize::new(0);

         let value = "Hello, world!".to_owned();

         for _ in 0..N_ITERS {
             // Reset mutable state.
             unsafe {
                 LAZY = Lazy::INIT;
             }
             CALL_COUNT.store(0, Ordering::SeqCst);

             // Create a bunch of threads, all calling .get() at the same time.
             let mut threads = vec![];
             let barrier = Arc::new(Barrier::new(N_THREADS));

             for _ in 0..N_THREADS {
                 let cloned_value_thread = value.clone();
                 let cloned_barrier = barrier.clone();
                 threads.push(thread::spawn(move || {
                     // Ensure all threads start at once to maximise contention.
                     cloned_barrier.wait();
                     for _ in 0..N_ITERS_IN_THREAD {
                         assert_eq!(&cloned_value_thread, unsafe {
                             LAZY.get(|| {
                                 CALL_COUNT.fetch_add(1, Ordering::SeqCst);
                                 cloned_value_thread.clone()
                             })
                         });
                     }
                 }));
             }

             for thread in threads {
                 thread.join().unwrap();
             }

             assert_eq!(CALL_COUNT.load(Ordering::SeqCst), 1);
         }
     }
 }
	//! Lazily initialized data.
	//! Used in generated code.

	// Avoid deprecation warnings when compiling rust-protobuf
	#![allow(deprecated)]

	use std::mem;
	use std::sync;

	/// Lasily initialized data.
	#[deprecated(
	since = "2.16",
	note = "Please regenerate .rs files from .proto files to use newer APIs"
	)]
	pub struct Lazy<T> {
	#[doc(hidden)]
	pub lock: sync::Once,
	#[doc(hidden)]
	pub ptr: *const T,
	}

	impl<T> Lazy<T> {
	/// Uninitialized `Lazy` object.
	///
	/// The initializer is added in rust-protobuf 2.11, for compatibility with
	/// previously generated code, existing fields are kept public.
	pub const INIT: Lazy<T> = Lazy {
	lock: sync::Once::new(),
	ptr: 0 as *const T,
	};

	/// Get lazy field value, initialize it with given function if not yet.
	pub fn get<F>(&'static mut self, init: F) -> &'static T
	where
	F: FnOnce() -> T,
	{
	// ~ decouple the lifetimes of 'self' and 'self.lock' such we
	// can initialize self.ptr in the call_once closure (note: we
	// do have to initialize self.ptr in the closure to guarantee
	// the ptr is valid for all calling threads at any point in
	// time)
	let lock: &sync::Once = unsafe { mem::transmute(&self.lock) };
	lock.call_once(\|\| unsafe {
	self.ptr = mem::transmute(Box::new(init()));
	});
	unsafe { &*self.ptr }
	}
	}

	/// Used to initialize `lock` field in `Lazy` struct.
	#[deprecated(
	since = "2.11",
	note = "Regenerate .proto files to use safer initializer"
	)]
	pub const ONCE_INIT: sync::Once = sync::Once::new();

	#[cfg(test)]
	mod test {
	use super::Lazy;
	use std::sync::atomic::AtomicIsize;
	use std::sync::atomic::Ordering;
	use std::sync::Arc;
	use std::sync::Barrier;
	use std::thread;

	#[test]
	fn many_threads_calling_get() {
	const N_THREADS: usize = 32;
	const N_ITERS_IN_THREAD: usize = 32;
	const N_ITERS: usize = 16;

	static mut LAZY: Lazy<String> = Lazy::INIT;
	static CALL_COUNT: AtomicIsize = AtomicIsize::new(0);

	let value = "Hello, world!".to_owned();

	for _ in 0..N_ITERS {
	// Reset mutable state.
	unsafe {
	LAZY = Lazy::INIT;
	}
	CALL_COUNT.store(0, Ordering::SeqCst);

	// Create a bunch of threads, all calling .get() at the same time.
	let mut threads = vec![];
	let barrier = Arc::new(Barrier::new(N_THREADS));

	for _ in 0..N_THREADS {
	let cloned_value_thread = value.clone();
	let cloned_barrier = barrier.clone();
	threads.push(thread::spawn(move \|\| {
	// Ensure all threads start at once to maximise contention.
	cloned_barrier.wait();
	for _ in 0..N_ITERS_IN_THREAD {
	assert_eq!(&cloned_value_thread, unsafe {
	LAZY.get(\|\| {
	CALL_COUNT.fetch_add(1, Ordering::SeqCst);
	cloned_value_thread.clone()
	})
	});
	}
	}));
	}

	for thread in threads {
	thread.join().unwrap();
	}

	assert_eq!(CALL_COUNT.load(Ordering::SeqCst), 1);
	}
	}
	}