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//! Abstractions for asynchronous programming.
//!
//! This crate provides a number of core abstractions for writing asynchronous
//! code:
//!
//! - [Futures](crate::future::Future) are single eventual values produced by
//!   asynchronous computations. Some programming languages (e.g. JavaScript)
//!   call this concept "promise".
//! - [Streams](crate::stream::Stream) represent a series of values
//!   produced asynchronously.
//! - [Sinks](crate::sink::Sink) provide support for asynchronous writing of
//!   data.
//! - [Executors](crate::executor) are responsible for running asynchronous
//!   tasks.
//!
//! The crate also contains abstractions for [asynchronous I/O](crate::io) and
//! [cross-task communication](crate::channel).
//!
//! Underlying all of this is the *task system*, which is a form of lightweight
//! threading. Large asynchronous computations are built up using futures,
//! streams and sinks, and then spawned as independent tasks that are run to
//! completion, but *do not block* the thread running them.

#![cfg_attr(feature = "cfg-target-has-atomic", feature(cfg_target_has_atomic))]
#![cfg_attr(feature = "read_initializer", feature(read_initializer))]

#![cfg_attr(not(feature = "std"), no_std)]

#![warn(missing_docs, missing_debug_implementations, rust_2018_idioms, unreachable_pub)]
// It cannot be included in the published code because this lints have false positives in the minimum required version.
#![cfg_attr(test, warn(single_use_lifetimes))]
#![warn(clippy::all)]

#![doc(test(attr(deny(warnings), allow(dead_code, unused_assignments, unused_variables))))]

#![doc(html_root_url = "https://rust-lang-nursery.github.io/futures-api-docs/0.3.0-alpha.19/futures")]

#[cfg(all(feature = "cfg-target-has-atomic", not(feature = "unstable")))]
compile_error!("The `cfg-target-has-atomic` feature requires the `unstable` feature as an explicit opt-in to unstable features");

#[cfg(all(feature = "bilock", not(feature = "unstable")))]
compile_error!("The `bilock` feature requires the `unstable` feature as an explicit opt-in to unstable features");

#[cfg(all(feature = "read_initializer", not(feature = "unstable")))]
compile_error!("The `read_initializer` feature requires the `unstable` feature as an explicit opt-in to unstable features");

#[doc(hidden)] pub use futures_core::core_reexport;

#[doc(hidden)] pub use futures_core::future::Future;
#[doc(hidden)] pub use futures_core::future::TryFuture;
#[doc(hidden)] pub use futures_util::future::FutureExt;
#[doc(hidden)] pub use futures_util::try_future::TryFutureExt;

#[doc(hidden)] pub use futures_core::stream::Stream;
#[doc(hidden)] pub use futures_core::stream::TryStream;
#[doc(hidden)] pub use futures_util::stream::StreamExt;
#[doc(hidden)] pub use futures_util::try_stream::TryStreamExt;

#[doc(hidden)] pub use futures_sink::Sink;
#[doc(hidden)] pub use futures_util::sink::SinkExt;

#[cfg(feature = "std")]
#[doc(hidden)] pub use futures_io::{AsyncRead, AsyncWrite, AsyncSeek, AsyncBufRead};
#[cfg(feature = "std")]
#[doc(hidden)] pub use futures_util::{AsyncReadExt, AsyncWriteExt, AsyncSeekExt, AsyncBufReadExt};

#[doc(hidden)] pub use futures_core::task::Poll;

#[doc(hidden)] pub use futures_util::never::Never;

// Macro reexports
pub use futures_core::ready; // Readiness propagation
pub use futures_util::pin_mut;
#[cfg(feature = "std")]
#[cfg(feature = "async-await")]
pub use futures_util::{pending, poll}; // Async-await

#[cfg_attr(
    feature = "cfg-target-has-atomic",
    cfg(all(target_has_atomic = "cas", target_has_atomic = "ptr"))
)]
#[cfg(feature = "alloc")]
pub mod channel {
    //! Cross-task communication.
    //!
    //! Like threads, concurrent tasks sometimes need to communicate with each
    //! other. This module contains two basic abstractions for doing so:
    //!
    //! - [oneshot](crate::channel::oneshot), a way of sending a single value
    //!   from one task to another.
    //! - [mpsc](crate::channel::mpsc), a multi-producer, single-consumer
    //!   channel for sending values between tasks, analogous to the
    //!   similarly-named structure in the standard library.
    //!
    //! This module is only available when the `std` or `alloc` feature of this
    //! library is activated, and it is activated by default.

    pub use futures_channel::oneshot;

    #[cfg(feature = "std")]
    pub use futures_channel::mpsc;
}

#[cfg(feature = "compat")]
pub mod compat {
    //! Interop between `futures` 0.1 and 0.3.
    //!
    //! This module is only available when the `compat` feature of this
    //! library is activated.

    pub use futures_util::compat::{
        Compat,
        CompatSink,
        Compat01As03,
        Compat01As03Sink,
        Executor01Future,
        Executor01As03,
        Executor01CompatExt,
        Future01CompatExt,
        Stream01CompatExt,
        Sink01CompatExt,
    };

    #[cfg(feature = "io-compat")]
    pub use futures_util::compat::{
        AsyncRead01CompatExt,
        AsyncWrite01CompatExt,
    };
}

#[cfg(feature = "std")]
pub mod executor {
    //! Task execution.
    //!
    //! All asynchronous computation occurs within an executor, which is
    //! capable of spawning futures as tasks. This module provides several
    //! built-in executors, as well as tools for building your own.
    //!
    //! This module is only available when the `std` feature of this
    //! library is activated, and it is activated by default.
    //!
    //! # Using a thread pool (M:N task scheduling)
    //!
    //! Most of the time tasks should be executed on a [thread
    //! pool](crate::executor::ThreadPool). A small set of worker threads can
    //! handle a very large set of spawned tasks (which are much lighter weight
    //! than threads).
    //!
    //! The simplest way to use a thread pool is to
    //! [`run`](crate::executor::ThreadPool::run) an initial task on it, which
    //! can then spawn further tasks back onto the pool to complete its work:
    //!
    //! ```
    //! use futures::executor::ThreadPool;
    //! # use futures::future::lazy;
    //! # let my_app = lazy(|_| 42);
    //!
    //! // assuming `my_app: Future`
    //! ThreadPool::new().expect("Failed to create threadpool").run(my_app);
    //! ```
    //!
    //! The call to [`run`](crate::executor::ThreadPool::run) will block the
    //! current thread until the future defined by `my_app` completes, and will
    //! return the result of that future.
    //!
    //! # Spawning additional tasks
    //!
    //! Tasks can be spawned onto a spawner by calling its
    //! [`spawn_obj`](crate::task::Spawn::spawn_obj) method directly.
    //! In the case of `!Send` futures,
    //! [`spawn_local_obj`](crate::task::LocalSpawn::spawn_local_obj)
    //! can be used instead.
    //!
    //! # Single-threaded execution
    //!
    //! In addition to thread pools, it's possible to run a task (and the tasks
    //! it spawns) entirely within a single thread via the
    //! [`LocalPool`](crate::executor::LocalPool) executor. Aside from cutting
    //! down on synchronization costs, this executor also makes it possible to
    //! spawn non-`Send` tasks, via
    //! [`spawn_local_obj`](crate::task::LocalSpawn::spawn_local_obj).
    //! The `LocalPool` is best suited for running I/O-bound tasks that do
    //! relatively little work between I/O operations.
    //!
    //! There is also a convenience function,
    //! [`block_on`](crate::executor::block_on), for simply running a future to
    //! completion on the current thread, while routing any spawned tasks
    //! to a global thread pool.

    pub use futures_executor::{
        BlockingStream,
        Enter, EnterError,
        LocalSpawner, LocalPool,
        ThreadPool, ThreadPoolBuilder,
        block_on, block_on_stream, enter,
    };
}

pub mod future {
    //! Asynchronous values.
    //!
    //! This module contains:
    //!
    //! - The [`Future` trait](crate::future::Future).
    //! - The [`FutureExt`](crate::future::FutureExt) trait, which provides
    //!   adapters for chaining and composing futures.
    //! - Top-level future combinators like [`lazy`](crate::future::lazy) which
    //!   creates a future from a closure that defines its return value, and
    //!   [`ready`](crate::future::ready), which constructs a future with an
    //!   immediate defined value.

    pub use futures_core::future::{
        Future, TryFuture, FusedFuture,
        FutureObj, LocalFutureObj, UnsafeFutureObj,
    };

    #[cfg(feature = "alloc")]
    pub use futures_core::future::{BoxFuture, LocalBoxFuture};

    pub use futures_util::future::{
        lazy, Lazy,
        maybe_done, MaybeDone,
        pending, Pending,
        poll_fn, PollFn,
        ready, ok, err, Ready,
        select, Select,
        join, join3, join4, join5,
        Join, Join3, Join4, Join5,
        Either,

        OptionFuture,

        FutureExt,
        FlattenStream, Flatten, Fuse, Inspect, IntoStream, Map, Then, UnitError,
        NeverError,
    };

    #[cfg(feature = "alloc")]
    pub use futures_util::future::{
        join_all, JoinAll,
        select_all, SelectAll,
    };

    #[cfg_attr(
        feature = "cfg-target-has-atomic",
        cfg(all(target_has_atomic = "cas", target_has_atomic = "ptr"))
    )]
    #[cfg(feature = "alloc")]
    pub use futures_util::future::{
        abortable, Abortable, AbortHandle, AbortRegistration, Aborted,
    };

    #[cfg(feature = "std")]
    pub use futures_util::future::{
        Remote, RemoteHandle,
        // For FutureExt:
        CatchUnwind, Shared,
    };

    pub use futures_util::try_future::{
        try_join, try_join3, try_join4, try_join5,
        TryJoin, TryJoin3, TryJoin4, TryJoin5,
        try_select, TrySelect,

        TryFutureExt,
        AndThen, ErrInto, FlattenSink, IntoFuture, MapErr, MapOk, OrElse,
        InspectOk, InspectErr, TryFlattenStream, UnwrapOrElse,
    };

    #[cfg(feature = "alloc")]
    pub use futures_util::try_future::{
        try_join_all, TryJoinAll,
        select_ok, SelectOk,
    };
}

#[cfg(feature = "std")]
pub mod io {
    //! Asynchronous I/O.
    //!
    //! This module is the asynchronous version of `std::io`. It defines four
    //! traits, [`AsyncRead`](crate::io::AsyncRead),
    //! [`AsyncWrite`](crate::io::AsyncWrite),
    //! [`AsyncSeek`](crate::io::AsyncSeek), and
    //! [`AsyncBufRead`](crate::io::AsyncBufRead), which mirror the `Read`,
    //! `Write`, `Seek`, and `BufRead` traits of the standard library. However,
    //! these traits integrate
    //! with the asynchronous task system, so that if an I/O object isn't ready
    //! for reading (or writing), the thread is not blocked, and instead the
    //! current task is queued to be woken when I/O is ready.
    //!
    //! In addition, the [`AsyncReadExt`](crate::io::AsyncReadExt),
    //! [`AsyncWriteExt`](crate::io::AsyncWriteExt),
    //! [`AsyncSeekExt`](crate::io::AsyncSeekExt), and
    //! [`AsyncBufReadExt`](crate::io::AsyncBufReadExt) extension traits offer a
    //! variety of useful combinators for operating with asynchronous I/O
    //! objects, including ways to work with them using futures, streams and
    //! sinks.
    //!
    //! This module is only available when the `std` feature of this
    //! library is activated, and it is activated by default.

    pub use futures_io::{
        AsyncRead, AsyncWrite, AsyncSeek, AsyncBufRead, Error, ErrorKind,
        IoSlice, IoSliceMut, Result, SeekFrom,
    };

    #[cfg(feature = "read_initializer")]
    pub use futures_io::Initializer;

    pub use futures_util::io::{
        AsyncReadExt, AsyncWriteExt, AsyncSeekExt, AsyncBufReadExt, AllowStdIo,
        BufReader, BufWriter, Chain, Close, CopyInto, CopyBufInto, empty, Empty,
        Flush, IntoSink, Lines, Read, ReadExact, ReadHalf, ReadLine, ReadToEnd,
        ReadToString, ReadUntil, ReadVectored, repeat, Repeat, Seek, sink, Sink,
        Take, Window, Write, WriteAll, WriteHalf, WriteVectored,
    };
}

#[cfg_attr(
    feature = "cfg-target-has-atomic",
    cfg(all(target_has_atomic = "cas", target_has_atomic = "ptr"))
)]
#[cfg(feature = "alloc")]
pub mod lock {
    //! Futures-powered synchronization primitives.
    //!
    //! This module is only available when the `std` or `alloc` feature of this
    //! library is activated, and it is activated by default.

    #[cfg(feature = "bilock")]
    pub use futures_util::lock::{BiLock, BiLockAcquire, BiLockGuard, ReuniteError};

    #[cfg(feature = "std")]
    pub use futures_util::lock::{Mutex, MutexLockFuture, MutexGuard};
}

pub mod prelude {
    //! A "prelude" for crates using the `futures` crate.
    //!
    //! This prelude is similar to the standard library's prelude in that you'll
    //! almost always want to import its entire contents, but unlike the
    //! standard library's prelude you'll have to do so manually:
    //!
    //! ```
    //! # #[allow(unused_imports)]
    //! use futures::prelude::*;
    //! ```
    //!
    //! The prelude may grow over time as additional items see ubiquitous use.

    pub use crate::future::{self, Future, TryFuture};
    pub use crate::stream::{self, Stream, TryStream};
    pub use crate::sink::{self, Sink};

    #[doc(no_inline)]
    pub use crate::future::{FutureExt as _, TryFutureExt as _};
    #[doc(no_inline)]
    pub use crate::stream::{StreamExt as _, TryStreamExt as _};
    #[doc(no_inline)]
    pub use crate::sink::SinkExt as _;

    #[cfg(feature = "std")]
    pub use crate::io::{
        AsyncRead, AsyncWrite, AsyncSeek, AsyncBufRead,
    };

    #[cfg(feature = "std")]
    #[doc(no_inline)]
    pub use crate::io::{
        AsyncReadExt as _, AsyncWriteExt as _, AsyncSeekExt as _, AsyncBufReadExt as _,
    };
}

pub mod sink {
    //! Asynchronous sinks.
    //!
    //! This module contains:
    //!
    //! - The [`Sink` trait](crate::sink::Sink), which allows you to
    //!   asynchronously write data.
    //! - The [`SinkExt`](crate::sink::SinkExt) trait, which provides adapters
    //!   for chaining and composing sinks.

    pub use futures_sink::Sink;

    pub use futures_util::sink::{
        Close, Flush, Send, SendAll, SinkErrInto, SinkMapErr, With,
        SinkExt, Fanout, Drain, drain,
        WithFlatMap,
    };

    #[cfg(feature = "alloc")]
    pub use futures_util::sink::Buffer;
}

pub mod stream {
    //! Asynchronous streams.
    //!
    //! This module contains:
    //!
    //! - The [`Stream` trait](crate::stream::Stream), for objects that can
    //!   asynchronously produce a sequence of values.
    //! - The [`StreamExt`](crate::stream::StreamExt) trait, which provides
    //!   adapters for chaining and composing streams.
    //! - Top-level stream contructors like [`iter`](crate::stream::iter)
    //!   which creates a stream from an iterator.

    pub use futures_core::stream::{
        Stream, TryStream, FusedStream,
    };

    #[cfg(feature = "alloc")]
    pub use futures_core::stream::{BoxStream, LocalBoxStream};

    pub use futures_util::stream::{
        iter, Iter,
        repeat, Repeat,
        empty, Empty,
        pending, Pending,
        once, Once,
        poll_fn, PollFn,
        select, Select,
        unfold, Unfold,

        StreamExt,
        Chain, Collect, Concat, Enumerate, Filter, FilterMap, Flatten, Fold,
        Forward, ForEach, Fuse, StreamFuture, Inspect, Map, Next,
        SelectNextSome, Peekable, Skip, SkipWhile, Take, TakeWhile,
        Then, Zip
    };

    #[cfg(feature = "alloc")]
    pub use futures_util::stream::{
        // For StreamExt:
        Chunks,
    };

    #[cfg_attr(
        feature = "cfg-target-has-atomic",
        cfg(all(target_has_atomic = "cas", target_has_atomic = "ptr"))
    )]
    #[cfg(feature = "alloc")]
    pub use futures_util::stream::{
        FuturesOrdered,
        futures_unordered, FuturesUnordered,

        // For StreamExt:
        BufferUnordered, Buffered, ForEachConcurrent, SplitStream, SplitSink,
        ReuniteError,

        select_all, SelectAll,
    };

    #[cfg(feature = "std")]
    pub use futures_util::stream::{
        // For StreamExt:
        CatchUnwind,
    };

    pub use futures_util::try_stream::{
        TryStreamExt,
        AndThen, ErrInto, MapOk, MapErr, OrElse,
        InspectOk, InspectErr,
        TryNext, TryForEach, TryFilter, TryFilterMap, TryFlatten,
        TryCollect, TryConcat, TryFold, TrySkipWhile,
        IntoStream,
    };

    #[cfg_attr(
        feature = "cfg-target-has-atomic",
        cfg(all(target_has_atomic = "cas", target_has_atomic = "ptr"))
    )]
    #[cfg(feature = "alloc")]
    pub use futures_util::try_stream::{
        // For TryStreamExt:
        TryBufferUnordered, TryForEachConcurrent,
    };

    #[cfg(feature = "std")]
    pub use futures_util::try_stream::IntoAsyncRead;
}

pub mod task {
    //! Tools for working with tasks.
    //!
    //! This module contains:
    //!
    //! - [`Spawn`](crate::task::Spawn), a trait for spawning new tasks.
    //! - [`Context`](crate::task::Context), a context of an asynchronous task,
    //!   including a handle for waking up the task.
    //! - [`Waker`](crate::task::Waker), a handle for waking up a task.
    //!
    //! The remaining types and traits in the module are used for implementing
    //! executors or dealing with synchronization issues around task wakeup.

    pub use futures_core::task::{
        Context, Poll, Spawn, LocalSpawn, SpawnError,
        Waker, RawWaker, RawWakerVTable
    };

    pub use futures_util::task::noop_waker;

    #[cfg(feature = "std")]
    pub use futures_util::task::noop_waker_ref;

    #[cfg(feature = "alloc")]
    pub use futures_util::task::{SpawnExt, LocalSpawnExt};

    #[cfg_attr(
        feature = "cfg-target-has-atomic",
        cfg(all(target_has_atomic = "cas", target_has_atomic = "ptr"))
    )]
    #[cfg(feature = "alloc")]
    pub use futures_util::task::{waker, waker_ref, WakerRef, ArcWake};

    #[cfg_attr(
        feature = "cfg-target-has-atomic",
        cfg(all(target_has_atomic = "cas", target_has_atomic = "ptr"))
    )]
    pub use futures_util::task::AtomicWaker;
}

pub mod never {
    //! This module contains the `Never` type.
    //!
    //! Values of this type can never be created and will never exist.

    pub use futures_util::never::Never;
}

// proc-macro re-export --------------------------------------

#[cfg(feature = "std")]
#[cfg(feature = "async-await")]
#[doc(hidden)]
pub use futures_util::async_await;

#[cfg(feature = "std")]
#[cfg(feature = "async-await")]
#[doc(hidden)]
pub mod inner_macro {
    pub use futures_util::join;
    pub use futures_util::try_join;
    pub use futures_util::select;
}

#[cfg(feature = "std")]
#[cfg(feature = "async-await")]
futures_util::document_join_macro! {
    #[macro_export]
    macro_rules! join { // replace `::futures_util` with `::futures` as the crate path
        ($($tokens:tt)*) => {
            $crate::inner_macro::join! {
                futures_crate_path ( ::futures )
                $( $tokens )*
            }
        }
    }

    #[macro_export]
    macro_rules! try_join { // replace `::futures_util` with `::futures` as the crate path
        ($($tokens:tt)*) => {
            $crate::inner_macro::try_join! {
                futures_crate_path ( ::futures )
                $( $tokens )*
            }
        }
    }
}

#[cfg(feature = "std")]
#[cfg(feature = "async-await")]
futures_util::document_select_macro! {
    #[macro_export]
    macro_rules! select { // replace `::futures_util` with `::futures` as the crate path
        ($($tokens:tt)*) => {
            $crate::inner_macro::select! {
                futures_crate_path ( ::futures )
                $( $tokens )*
            }
        }
    }
}