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</pre><pre class="rust ">
<span class="doccomment">//! Asynchronous streams</span>
<span class="doccomment">//!</span>
<span class="doccomment">//! This module contains the `Stream` trait and a number of adaptors for this</span>
<span class="doccomment">//! trait. This trait is very similar to the `Iterator` trait in the standard</span>
<span class="doccomment">//! library except that it expresses the concept of blocking as well. A stream</span>
<span class="doccomment">//! here is a sequential sequence of values which may take some amount of time</span>
<span class="doccomment">//! in between to produce.</span>
<span class="doccomment">//!</span>
<span class="doccomment">//! A stream may request that it is blocked between values while the next value</span>
<span class="doccomment">//! is calculated, and provides a way to get notified once the next value is</span>
<span class="doccomment">//! ready as well.</span>
<span class="doccomment">//!</span>
<span class="doccomment">//! You can find more information/tutorials about streams [online at</span>
<span class="doccomment">//! https://tokio.rs][online]</span>
<span class="doccomment">//!</span>
<span class="doccomment">//! [online]: https://tokio.rs/docs/getting-started/streams-and-sinks/</span>
<span class="kw">use</span> {<span class="ident">IntoFuture</span>, <span class="ident">Poll</span>};
<span class="kw">mod</span> <span class="ident">iter</span>;
<span class="attribute">#[<span class="ident">allow</span>(<span class="ident">deprecated</span>)]</span>
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">iter</span>::{<span class="ident">iter</span>, <span class="ident">Iter</span>};
<span class="attribute">#[<span class="ident">cfg</span>(<span class="ident">feature</span> <span class="op">=</span> <span class="string">"with-deprecated"</span>)]</span>
<span class="attribute">#[<span class="ident">allow</span>(<span class="ident">deprecated</span>)]</span>
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">Iter</span> <span class="kw">as</span> <span class="ident">IterStream</span>;
<span class="kw">mod</span> <span class="ident">iter_ok</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">iter_ok</span>::{<span class="ident">iter_ok</span>, <span class="ident">IterOk</span>};
<span class="kw">mod</span> <span class="ident">iter_result</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">iter_result</span>::{<span class="ident">iter_result</span>, <span class="ident">IterResult</span>};
<span class="kw">mod</span> <span class="ident">repeat</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">repeat</span>::{<span class="ident">repeat</span>, <span class="ident">Repeat</span>};
<span class="kw">mod</span> <span class="ident">and_then</span>;
<span class="kw">mod</span> <span class="ident">chain</span>;
<span class="kw">mod</span> <span class="ident">concat</span>;
<span class="kw">mod</span> <span class="ident">empty</span>;
<span class="kw">mod</span> <span class="ident">filter</span>;
<span class="kw">mod</span> <span class="ident">filter_map</span>;
<span class="kw">mod</span> <span class="ident">flatten</span>;
<span class="kw">mod</span> <span class="ident">fold</span>;
<span class="kw">mod</span> <span class="ident">for_each</span>;
<span class="kw">mod</span> <span class="ident">from_err</span>;
<span class="kw">mod</span> <span class="ident">fuse</span>;
<span class="kw">mod</span> <span class="ident">future</span>;
<span class="kw">mod</span> <span class="ident">inspect</span>;
<span class="kw">mod</span> <span class="ident">inspect_err</span>;
<span class="kw">mod</span> <span class="ident">map</span>;
<span class="kw">mod</span> <span class="ident">map_err</span>;
<span class="kw">mod</span> <span class="ident">merge</span>;
<span class="kw">mod</span> <span class="ident">once</span>;
<span class="kw">mod</span> <span class="ident">or_else</span>;
<span class="kw">mod</span> <span class="ident">peek</span>;
<span class="kw">mod</span> <span class="ident">poll_fn</span>;
<span class="kw">mod</span> <span class="ident">select</span>;
<span class="kw">mod</span> <span class="ident">skip</span>;
<span class="kw">mod</span> <span class="ident">skip_while</span>;
<span class="kw">mod</span> <span class="ident">take</span>;
<span class="kw">mod</span> <span class="ident">take_while</span>;
<span class="kw">mod</span> <span class="ident">then</span>;
<span class="kw">mod</span> <span class="ident">unfold</span>;
<span class="kw">mod</span> <span class="ident">zip</span>;
<span class="kw">mod</span> <span class="ident">forward</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">and_then</span>::<span class="ident">AndThen</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">chain</span>::<span class="ident">Chain</span>;
<span class="attribute">#[<span class="ident">allow</span>(<span class="ident">deprecated</span>)]</span>
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">concat</span>::<span class="ident">Concat</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">concat</span>::<span class="ident">Concat2</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">empty</span>::{<span class="ident">Empty</span>, <span class="ident">empty</span>};
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">filter</span>::<span class="ident">Filter</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">filter_map</span>::<span class="ident">FilterMap</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">flatten</span>::<span class="ident">Flatten</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">fold</span>::<span class="ident">Fold</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">for_each</span>::<span class="ident">ForEach</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">from_err</span>::<span class="ident">FromErr</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">fuse</span>::<span class="ident">Fuse</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">future</span>::<span class="ident">StreamFuture</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">inspect</span>::<span class="ident">Inspect</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">inspect_err</span>::<span class="ident">InspectErr</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">map</span>::<span class="ident">Map</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">map_err</span>::<span class="ident">MapErr</span>;
<span class="attribute">#[<span class="ident">allow</span>(<span class="ident">deprecated</span>)]</span>
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">merge</span>::{<span class="ident">Merge</span>, <span class="ident">MergedItem</span>};
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">once</span>::{<span class="ident">Once</span>, <span class="ident">once</span>};
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">or_else</span>::<span class="ident">OrElse</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">peek</span>::<span class="ident">Peekable</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">poll_fn</span>::{<span class="ident">poll_fn</span>, <span class="ident">PollFn</span>};
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">select</span>::<span class="ident">Select</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">skip</span>::<span class="ident">Skip</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">skip_while</span>::<span class="ident">SkipWhile</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">take</span>::<span class="ident">Take</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">take_while</span>::<span class="ident">TakeWhile</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">then</span>::<span class="ident">Then</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">unfold</span>::{<span class="ident">Unfold</span>, <span class="ident">unfold</span>};
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">zip</span>::<span class="ident">Zip</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">forward</span>::<span class="ident">Forward</span>;
<span class="kw">use</span> <span class="ident">sink</span>::{<span class="ident">Sink</span>};
<span class="macro">if_std</span><span class="macro">!</span> {
<span class="kw">use</span> <span class="ident">std</span>;
<span class="kw">mod</span> <span class="ident">buffered</span>;
<span class="kw">mod</span> <span class="ident">buffer_unordered</span>;
<span class="kw">mod</span> <span class="ident">catch_unwind</span>;
<span class="kw">mod</span> <span class="ident">chunks</span>;
<span class="kw">mod</span> <span class="ident">collect</span>;
<span class="kw">mod</span> <span class="ident">wait</span>;
<span class="kw">mod</span> <span class="ident">channel</span>;
<span class="kw">mod</span> <span class="ident">split</span>;
<span class="kw">pub</span> <span class="kw">mod</span> <span class="ident">futures_unordered</span>;
<span class="kw">mod</span> <span class="ident">futures_ordered</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">buffered</span>::<span class="ident">Buffered</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">buffer_unordered</span>::<span class="ident">BufferUnordered</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">catch_unwind</span>::<span class="ident">CatchUnwind</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">chunks</span>::<span class="ident">Chunks</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">collect</span>::<span class="ident">Collect</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">wait</span>::<span class="ident">Wait</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">split</span>::{<span class="ident">SplitStream</span>, <span class="ident">SplitSink</span>, <span class="ident">ReuniteError</span>};
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">futures_unordered</span>::<span class="ident">FuturesUnordered</span>;
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">futures_ordered</span>::{<span class="ident">futures_ordered</span>, <span class="ident">FuturesOrdered</span>};
<span class="attribute">#[<span class="ident">doc</span>(<span class="ident">hidden</span>)]</span>
<span class="attribute">#[<span class="ident">cfg</span>(<span class="ident">feature</span> <span class="op">=</span> <span class="string">"with-deprecated"</span>)]</span>
<span class="attribute">#[<span class="ident">allow</span>(<span class="ident">deprecated</span>)]</span>
<span class="kw">pub</span> <span class="kw">use</span> <span class="self">self</span>::<span class="ident">channel</span>::{<span class="ident">channel</span>, <span class="ident">Sender</span>, <span class="ident">Receiver</span>, <span class="ident">FutureSender</span>, <span class="ident">SendError</span>};
<span class="doccomment">/// A type alias for `Box<Stream + Send>`</span>
<span class="attribute">#[<span class="ident">doc</span>(<span class="ident">hidden</span>)]</span>
<span class="attribute">#[<span class="ident">deprecated</span>(<span class="ident">note</span> <span class="op">=</span> <span class="string">"removed without replacement, recommended to use a \
local extension trait or function if needed, more \
details in https://github.com/rust-lang-nursery/futures-rs/issues/228"</span>)]</span>
<span class="kw">pub</span> <span class="kw">type</span> <span class="ident">BoxStream</span><span class="op"><</span><span class="ident">T</span>, <span class="ident">E</span><span class="op">></span> <span class="op">=</span> ::<span class="ident">std</span>::<span class="ident">boxed</span>::<span class="ident">Box</span><span class="op"><</span><span class="ident">Stream</span><span class="op"><</span><span class="ident">Item</span> <span class="op">=</span> <span class="ident">T</span>, <span class="ident">Error</span> <span class="op">=</span> <span class="ident">E</span><span class="op">></span> <span class="op">+</span> <span class="ident">Send</span><span class="op">></span>;
<span class="kw">impl</span><span class="op"><</span><span class="ident">S</span>: <span class="question-mark">?</span><span class="ident">Sized</span> <span class="op">+</span> <span class="ident">Stream</span><span class="op">></span> <span class="ident">Stream</span> <span class="kw">for</span> ::<span class="ident">std</span>::<span class="ident">boxed</span>::<span class="ident">Box</span><span class="op"><</span><span class="ident">S</span><span class="op">></span> {
<span class="kw">type</span> <span class="ident">Item</span> <span class="op">=</span> <span class="ident">S</span>::<span class="ident">Item</span>;
<span class="kw">type</span> <span class="ident">Error</span> <span class="op">=</span> <span class="ident">S</span>::<span class="ident">Error</span>;
<span class="kw">fn</span> <span class="ident">poll</span>(<span class="kw-2">&</span><span class="kw-2">mut</span> <span class="self">self</span>) <span class="op">-></span> <span class="ident">Poll</span><span class="op"><</span><span class="prelude-ty">Option</span><span class="op"><</span><span class="self">Self</span>::<span class="ident">Item</span><span class="op">></span>, <span class="self">Self</span>::<span class="ident">Error</span><span class="op">></span> {
(<span class="kw-2">*</span><span class="kw-2">*</span><span class="self">self</span>).<span class="ident">poll</span>()
}
}
}
<span class="doccomment">/// A stream of values, not all of which may have been produced yet.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// `Stream` is a trait to represent any source of sequential events or items</span>
<span class="doccomment">/// which acts like an iterator but long periods of time may pass between</span>
<span class="doccomment">/// items. Like `Future` the methods of `Stream` never block and it is thus</span>
<span class="doccomment">/// suitable for programming in an asynchronous fashion. This trait is very</span>
<span class="doccomment">/// similar to the `Iterator` trait in the standard library where `Some` is</span>
<span class="doccomment">/// used to signal elements of the stream and `None` is used to indicate that</span>
<span class="doccomment">/// the stream is finished.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Like futures a stream has basic combinators to transform the stream, perform</span>
<span class="doccomment">/// more work on each item, etc.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// You can find more information/tutorials about streams [online at</span>
<span class="doccomment">/// https://tokio.rs][online]</span>
<span class="doccomment">///</span>
<span class="doccomment">/// [online]: https://tokio.rs/docs/getting-started/streams-and-sinks/</span>
<span class="doccomment">///</span>
<span class="doccomment">/// # Streams as Futures</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Any instance of `Stream` can also be viewed as a `Future` where the resolved</span>
<span class="doccomment">/// value is the next item in the stream along with the rest of the stream. The</span>
<span class="doccomment">/// `into_future` adaptor can be used here to convert any stream into a future</span>
<span class="doccomment">/// for use with other future methods like `join` and `select`.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// # Errors</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Streams, like futures, can also model errors in their computation. All</span>
<span class="doccomment">/// streams have an associated `Error` type like with futures. Currently as of</span>
<span class="doccomment">/// the 0.1 release of this library an error on a stream **does not terminate</span>
<span class="doccomment">/// the stream**. That is, after one error is received, another error may be</span>
<span class="doccomment">/// received from the same stream (it's valid to keep polling).</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This property of streams, however, is [being considered] for change in 0.2</span>
<span class="doccomment">/// where an error on a stream is similar to `None`, it terminates the stream</span>
<span class="doccomment">/// entirely. If one of these use cases suits you perfectly and not the other,</span>
<span class="doccomment">/// please feel welcome to comment on [the issue][being considered]!</span>
<span class="doccomment">///</span>
<span class="doccomment">/// [being considered]: https://github.com/rust-lang-nursery/futures-rs/issues/206</span>
<span class="kw">pub</span> <span class="kw">trait</span> <span class="ident">Stream</span> {
<span class="doccomment">/// The type of item this stream will yield on success.</span>
<span class="kw">type</span> <span class="ident">Item</span>;
<span class="doccomment">/// The type of error this stream may generate.</span>
<span class="kw">type</span> <span class="ident">Error</span>;
<span class="doccomment">/// Attempt to pull out the next value of this stream, returning `None` if</span>
<span class="doccomment">/// the stream is finished.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This method, like `Future::poll`, is the sole method of pulling out a</span>
<span class="doccomment">/// value from a stream. This method must also be run within the context of</span>
<span class="doccomment">/// a task typically and implementors of this trait must ensure that</span>
<span class="doccomment">/// implementations of this method do not block, as it may cause consumers</span>
<span class="doccomment">/// to behave badly.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// # Return value</span>
<span class="doccomment">///</span>
<span class="doccomment">/// If `NotReady` is returned then this stream's next value is not ready</span>
<span class="doccomment">/// yet and implementations will ensure that the current task will be</span>
<span class="doccomment">/// notified when the next value may be ready. If `Some` is returned then</span>
<span class="doccomment">/// the returned value represents the next value on the stream. `Err`</span>
<span class="doccomment">/// indicates an error happened, while `Ok` indicates whether there was a</span>
<span class="doccomment">/// new item on the stream or whether the stream has terminated.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// # Panics</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Once a stream is finished, that is `Ready(None)` has been returned,</span>
<span class="doccomment">/// further calls to `poll` may result in a panic or other "bad behavior".</span>
<span class="doccomment">/// If this is difficult to guard against then the `fuse` adapter can be</span>
<span class="doccomment">/// used to ensure that `poll` always has well-defined semantics.</span>
<span class="comment">// TODO: more here</span>
<span class="kw">fn</span> <span class="ident">poll</span>(<span class="kw-2">&</span><span class="kw-2">mut</span> <span class="self">self</span>) <span class="op">-></span> <span class="ident">Poll</span><span class="op"><</span><span class="prelude-ty">Option</span><span class="op"><</span><span class="self">Self</span>::<span class="ident">Item</span><span class="op">></span>, <span class="self">Self</span>::<span class="ident">Error</span><span class="op">></span>;
<span class="comment">// TODO: should there also be a method like `poll` but doesn't return an</span>
<span class="comment">// item? basically just says "please make more progress internally"</span>
<span class="comment">// seems crucial for buffering to actually make any sense.</span>
<span class="doccomment">/// Creates an iterator which blocks the current thread until each item of</span>
<span class="doccomment">/// this stream is resolved.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This method will consume ownership of this stream, returning an</span>
<span class="doccomment">/// implementation of a standard iterator. This iterator will *block the</span>
<span class="doccomment">/// current thread* on each call to `next` if the item in the stream isn't</span>
<span class="doccomment">/// ready yet.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// > **Note:** This method is not appropriate to call on event loops or</span>
<span class="doccomment">/// > similar I/O situations because it will prevent the event</span>
<span class="doccomment">/// > loop from making progress (this blocks the thread). This</span>
<span class="doccomment">/// > method should only be called when it's guaranteed that the</span>
<span class="doccomment">/// > blocking work associated with this stream will be completed</span>
<span class="doccomment">/// > by another thread.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This method is only available when the `use_std` feature of this</span>
<span class="doccomment">/// library is activated, and it is activated by default.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// # Panics</span>
<span class="doccomment">///</span>
<span class="doccomment">/// The returned iterator does not attempt to catch panics. If the `poll`</span>
<span class="doccomment">/// function panics, panics will be propagated to the caller of `next`.</span>
<span class="attribute">#[<span class="ident">cfg</span>(<span class="ident">feature</span> <span class="op">=</span> <span class="string">"use_std"</span>)]</span>
<span class="kw">fn</span> <span class="ident">wait</span>(<span class="self">self</span>) <span class="op">-></span> <span class="ident">Wait</span><span class="op"><</span><span class="self">Self</span><span class="op">></span>
<span class="kw">where</span> <span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">wait</span>::<span class="ident">new</span>(<span class="self">self</span>)
}
<span class="doccomment">/// Convenience function for turning this stream into a trait object.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This simply avoids the need to write `Box::new` and can often help with</span>
<span class="doccomment">/// type inference as well by always returning a trait object. Note that</span>
<span class="doccomment">/// this method requires the `Send` bound and returns a `BoxStream`, which</span>
<span class="doccomment">/// also encodes this. If you'd like to create a `Box<Stream>` without the</span>
<span class="doccomment">/// `Send` bound, then the `Box::new` function can be used instead.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This method is only available when the `use_std` feature of this</span>
<span class="doccomment">/// library is activated, and it is activated by default.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// # Examples</span>
<span class="doccomment">///</span>
<span class="doccomment">/// ```</span>
<span class="doccomment">/// use futures::stream::*;</span>
<span class="doccomment">/// use futures::sync::mpsc;</span>
<span class="doccomment">///</span>
<span class="doccomment">/// let (_tx, rx) = mpsc::channel(1);</span>
<span class="doccomment">/// let a: BoxStream<i32, ()> = rx.boxed();</span>
<span class="doccomment">/// ```</span>
<span class="attribute">#[<span class="ident">cfg</span>(<span class="ident">feature</span> <span class="op">=</span> <span class="string">"use_std"</span>)]</span>
<span class="attribute">#[<span class="ident">doc</span>(<span class="ident">hidden</span>)]</span>
<span class="attribute">#[<span class="ident">deprecated</span>(<span class="ident">note</span> <span class="op">=</span> <span class="string">"removed without replacement, recommended to use a \
local extension trait or function if needed, more \
details in https://github.com/rust-lang-nursery/futures-rs/issues/228"</span>)]</span>
<span class="attribute">#[<span class="ident">allow</span>(<span class="ident">deprecated</span>)]</span>
<span class="kw">fn</span> <span class="ident">boxed</span>(<span class="self">self</span>) <span class="op">-></span> <span class="ident">BoxStream</span><span class="op"><</span><span class="self">Self</span>::<span class="ident">Item</span>, <span class="self">Self</span>::<span class="ident">Error</span><span class="op">></span>
<span class="kw">where</span> <span class="self">Self</span>: <span class="ident">Sized</span> <span class="op">+</span> <span class="ident">Send</span> <span class="op">+</span> <span class="lifetime">'static</span>,
{
::<span class="ident">std</span>::<span class="ident">boxed</span>::<span class="ident">Box</span>::<span class="ident">new</span>(<span class="self">self</span>)
}
<span class="doccomment">/// Converts this stream into a `Future`.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// A stream can be viewed as a future which will resolve to a pair containing</span>
<span class="doccomment">/// the next element of the stream plus the remaining stream. If the stream</span>
<span class="doccomment">/// terminates, then the next element is `None` and the remaining stream is</span>
<span class="doccomment">/// still passed back, to allow reclamation of its resources.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// The returned future can be used to compose streams and futures together by</span>
<span class="doccomment">/// placing everything into the "world of futures".</span>
<span class="kw">fn</span> <span class="ident">into_future</span>(<span class="self">self</span>) <span class="op">-></span> <span class="ident">StreamFuture</span><span class="op"><</span><span class="self">Self</span><span class="op">></span>
<span class="kw">where</span> <span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">future</span>::<span class="ident">new</span>(<span class="self">self</span>)
}
<span class="doccomment">/// Converts a stream of type `T` to a stream of type `U`.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// The provided closure is executed over all elements of this stream as</span>
<span class="doccomment">/// they are made available, and the callback will be executed inline with</span>
<span class="doccomment">/// calls to `poll`.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Note that this function consumes the receiving stream and returns a</span>
<span class="doccomment">/// wrapped version of it, similar to the existing `map` methods in the</span>
<span class="doccomment">/// standard library.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// # Examples</span>
<span class="doccomment">///</span>
<span class="doccomment">/// ```</span>
<span class="doccomment">/// use futures::prelude::*;</span>
<span class="doccomment">/// use futures::sync::mpsc;</span>
<span class="doccomment">///</span>
<span class="doccomment">/// let (_tx, rx) = mpsc::channel::<i32>(1);</span>
<span class="doccomment">/// let rx = rx.map(|x| x + 3);</span>
<span class="doccomment">/// ```</span>
<span class="kw">fn</span> <span class="ident">map</span><span class="op"><</span><span class="ident">U</span>, <span class="ident">F</span><span class="op">></span>(<span class="self">self</span>, <span class="ident">f</span>: <span class="ident">F</span>) <span class="op">-></span> <span class="ident">Map</span><span class="op"><</span><span class="self">Self</span>, <span class="ident">F</span><span class="op">></span>
<span class="kw">where</span> <span class="ident">F</span>: <span class="ident">FnMut</span>(<span class="self">Self</span>::<span class="ident">Item</span>) <span class="op">-></span> <span class="ident">U</span>,
<span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">map</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">f</span>)
}
<span class="doccomment">/// Converts a stream of error type `T` to a stream of error type `U`.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// The provided closure is executed over all errors of this stream as</span>
<span class="doccomment">/// they are made available, and the callback will be executed inline with</span>
<span class="doccomment">/// calls to `poll`.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Note that this function consumes the receiving stream and returns a</span>
<span class="doccomment">/// wrapped version of it, similar to the existing `map_err` methods in the</span>
<span class="doccomment">/// standard library.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// # Examples</span>
<span class="doccomment">///</span>
<span class="doccomment">/// ```</span>
<span class="doccomment">/// use futures::prelude::*;</span>
<span class="doccomment">/// use futures::sync::mpsc;</span>
<span class="doccomment">///</span>
<span class="doccomment">/// let (_tx, rx) = mpsc::channel::<i32>(1);</span>
<span class="doccomment">/// let rx = rx.map_err(|()| 3);</span>
<span class="doccomment">/// ```</span>
<span class="kw">fn</span> <span class="ident">map_err</span><span class="op"><</span><span class="ident">U</span>, <span class="ident">F</span><span class="op">></span>(<span class="self">self</span>, <span class="ident">f</span>: <span class="ident">F</span>) <span class="op">-></span> <span class="ident">MapErr</span><span class="op"><</span><span class="self">Self</span>, <span class="ident">F</span><span class="op">></span>
<span class="kw">where</span> <span class="ident">F</span>: <span class="ident">FnMut</span>(<span class="self">Self</span>::<span class="ident">Error</span>) <span class="op">-></span> <span class="ident">U</span>,
<span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">map_err</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">f</span>)
}
<span class="doccomment">/// Filters the values produced by this stream according to the provided</span>
<span class="doccomment">/// predicate.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// As values of this stream are made available, the provided predicate will</span>
<span class="doccomment">/// be run against them. If the predicate returns `true` then the stream</span>
<span class="doccomment">/// will yield the value, but if the predicate returns `false` then the</span>
<span class="doccomment">/// value will be discarded and the next value will be produced.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// All errors are passed through without filtering in this combinator.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Note that this function consumes the receiving stream and returns a</span>
<span class="doccomment">/// wrapped version of it, similar to the existing `filter` methods in the</span>
<span class="doccomment">/// standard library.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// # Examples</span>
<span class="doccomment">///</span>
<span class="doccomment">/// ```</span>
<span class="doccomment">/// use futures::prelude::*;</span>
<span class="doccomment">/// use futures::sync::mpsc;</span>
<span class="doccomment">///</span>
<span class="doccomment">/// let (_tx, rx) = mpsc::channel::<i32>(1);</span>
<span class="doccomment">/// let evens = rx.filter(|x| x % 2 == 0);</span>
<span class="doccomment">/// ```</span>
<span class="kw">fn</span> <span class="ident">filter</span><span class="op"><</span><span class="ident">F</span><span class="op">></span>(<span class="self">self</span>, <span class="ident">f</span>: <span class="ident">F</span>) <span class="op">-></span> <span class="ident">Filter</span><span class="op"><</span><span class="self">Self</span>, <span class="ident">F</span><span class="op">></span>
<span class="kw">where</span> <span class="ident">F</span>: <span class="ident">FnMut</span>(<span class="kw-2">&</span><span class="self">Self</span>::<span class="ident">Item</span>) <span class="op">-></span> <span class="ident">bool</span>,
<span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">filter</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">f</span>)
}
<span class="doccomment">/// Filters the values produced by this stream while simultaneously mapping</span>
<span class="doccomment">/// them to a different type.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// As values of this stream are made available, the provided function will</span>
<span class="doccomment">/// be run on them. If the predicate returns `Some(e)` then the stream will</span>
<span class="doccomment">/// yield the value `e`, but if the predicate returns `None` then the next</span>
<span class="doccomment">/// value will be produced.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// All errors are passed through without filtering in this combinator.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Note that this function consumes the receiving stream and returns a</span>
<span class="doccomment">/// wrapped version of it, similar to the existing `filter_map` methods in the</span>
<span class="doccomment">/// standard library.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// # Examples</span>
<span class="doccomment">///</span>
<span class="doccomment">/// ```</span>
<span class="doccomment">/// use futures::prelude::*;</span>
<span class="doccomment">/// use futures::sync::mpsc;</span>
<span class="doccomment">///</span>
<span class="doccomment">/// let (_tx, rx) = mpsc::channel::<i32>(1);</span>
<span class="doccomment">/// let evens_plus_one = rx.filter_map(|x| {</span>
<span class="doccomment">/// if x % 0 == 2 {</span>
<span class="doccomment">/// Some(x + 1)</span>
<span class="doccomment">/// } else {</span>
<span class="doccomment">/// None</span>
<span class="doccomment">/// }</span>
<span class="doccomment">/// });</span>
<span class="doccomment">/// ```</span>
<span class="kw">fn</span> <span class="ident">filter_map</span><span class="op"><</span><span class="ident">F</span>, <span class="ident">B</span><span class="op">></span>(<span class="self">self</span>, <span class="ident">f</span>: <span class="ident">F</span>) <span class="op">-></span> <span class="ident">FilterMap</span><span class="op"><</span><span class="self">Self</span>, <span class="ident">F</span><span class="op">></span>
<span class="kw">where</span> <span class="ident">F</span>: <span class="ident">FnMut</span>(<span class="self">Self</span>::<span class="ident">Item</span>) <span class="op">-></span> <span class="prelude-ty">Option</span><span class="op"><</span><span class="ident">B</span><span class="op">></span>,
<span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">filter_map</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">f</span>)
}
<span class="doccomment">/// Chain on a computation for when a value is ready, passing the resulting</span>
<span class="doccomment">/// item to the provided closure `f`.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This function can be used to ensure a computation runs regardless of</span>
<span class="doccomment">/// the next value on the stream. The closure provided will be yielded a</span>
<span class="doccomment">/// `Result` once a value is ready, and the returned future will then be run</span>
<span class="doccomment">/// to completion to produce the next value on this stream.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// The returned value of the closure must implement the `IntoFuture` trait</span>
<span class="doccomment">/// and can represent some more work to be done before the composed stream</span>
<span class="doccomment">/// is finished. Note that the `Result` type implements the `IntoFuture`</span>
<span class="doccomment">/// trait so it is possible to simply alter the `Result` yielded to the</span>
<span class="doccomment">/// closure and return it.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Note that this function consumes the receiving stream and returns a</span>
<span class="doccomment">/// wrapped version of it.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// # Examples</span>
<span class="doccomment">///</span>
<span class="doccomment">/// ```</span>
<span class="doccomment">/// use futures::prelude::*;</span>
<span class="doccomment">/// use futures::sync::mpsc;</span>
<span class="doccomment">///</span>
<span class="doccomment">/// let (_tx, rx) = mpsc::channel::<i32>(1);</span>
<span class="doccomment">///</span>
<span class="doccomment">/// let rx = rx.then(|result| {</span>
<span class="doccomment">/// match result {</span>
<span class="doccomment">/// Ok(e) => Ok(e + 3),</span>
<span class="doccomment">/// Err(()) => Err(4),</span>
<span class="doccomment">/// }</span>
<span class="doccomment">/// });</span>
<span class="doccomment">/// ```</span>
<span class="kw">fn</span> <span class="ident">then</span><span class="op"><</span><span class="ident">F</span>, <span class="ident">U</span><span class="op">></span>(<span class="self">self</span>, <span class="ident">f</span>: <span class="ident">F</span>) <span class="op">-></span> <span class="ident">Then</span><span class="op"><</span><span class="self">Self</span>, <span class="ident">F</span>, <span class="ident">U</span><span class="op">></span>
<span class="kw">where</span> <span class="ident">F</span>: <span class="ident">FnMut</span>(<span class="prelude-ty">Result</span><span class="op"><</span><span class="self">Self</span>::<span class="ident">Item</span>, <span class="self">Self</span>::<span class="ident">Error</span><span class="op">></span>) <span class="op">-></span> <span class="ident">U</span>,
<span class="ident">U</span>: <span class="ident">IntoFuture</span>,
<span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">then</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">f</span>)
}
<span class="doccomment">/// Chain on a computation for when a value is ready, passing the successful</span>
<span class="doccomment">/// results to the provided closure `f`.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This function can be used to run a unit of work when the next successful</span>
<span class="doccomment">/// value on a stream is ready. The closure provided will be yielded a value</span>
<span class="doccomment">/// when ready, and the returned future will then be run to completion to</span>
<span class="doccomment">/// produce the next value on this stream.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Any errors produced by this stream will not be passed to the closure,</span>
<span class="doccomment">/// and will be passed through.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// The returned value of the closure must implement the `IntoFuture` trait</span>
<span class="doccomment">/// and can represent some more work to be done before the composed stream</span>
<span class="doccomment">/// is finished. Note that the `Result` type implements the `IntoFuture`</span>
<span class="doccomment">/// trait so it is possible to simply alter the `Result` yielded to the</span>
<span class="doccomment">/// closure and return it.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Note that this function consumes the receiving stream and returns a</span>
<span class="doccomment">/// wrapped version of it.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// To process the entire stream and return a single future representing</span>
<span class="doccomment">/// success or error, use `for_each` instead.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// # Examples</span>
<span class="doccomment">///</span>
<span class="doccomment">/// ```</span>
<span class="doccomment">/// use futures::prelude::*;</span>
<span class="doccomment">/// use futures::sync::mpsc;</span>
<span class="doccomment">///</span>
<span class="doccomment">/// let (_tx, rx) = mpsc::channel::<i32>(1);</span>
<span class="doccomment">///</span>
<span class="doccomment">/// let rx = rx.and_then(|result| {</span>
<span class="doccomment">/// if result % 2 == 0 {</span>
<span class="doccomment">/// Ok(result)</span>
<span class="doccomment">/// } else {</span>
<span class="doccomment">/// Err(())</span>
<span class="doccomment">/// }</span>
<span class="doccomment">/// });</span>
<span class="doccomment">/// ```</span>
<span class="kw">fn</span> <span class="ident">and_then</span><span class="op"><</span><span class="ident">F</span>, <span class="ident">U</span><span class="op">></span>(<span class="self">self</span>, <span class="ident">f</span>: <span class="ident">F</span>) <span class="op">-></span> <span class="ident">AndThen</span><span class="op"><</span><span class="self">Self</span>, <span class="ident">F</span>, <span class="ident">U</span><span class="op">></span>
<span class="kw">where</span> <span class="ident">F</span>: <span class="ident">FnMut</span>(<span class="self">Self</span>::<span class="ident">Item</span>) <span class="op">-></span> <span class="ident">U</span>,
<span class="ident">U</span>: <span class="ident">IntoFuture</span><span class="op"><</span><span class="ident">Error</span> <span class="op">=</span> <span class="self">Self</span>::<span class="ident">Error</span><span class="op">></span>,
<span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">and_then</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">f</span>)
}
<span class="doccomment">/// Chain on a computation for when an error happens, passing the</span>
<span class="doccomment">/// erroneous result to the provided closure `f`.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This function can be used to run a unit of work and attempt to recover from</span>
<span class="doccomment">/// an error if one happens. The closure provided will be yielded an error</span>
<span class="doccomment">/// when one appears, and the returned future will then be run to completion</span>
<span class="doccomment">/// to produce the next value on this stream.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Any successful values produced by this stream will not be passed to the</span>
<span class="doccomment">/// closure, and will be passed through.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// The returned value of the closure must implement the `IntoFuture` trait</span>
<span class="doccomment">/// and can represent some more work to be done before the composed stream</span>
<span class="doccomment">/// is finished. Note that the `Result` type implements the `IntoFuture`</span>
<span class="doccomment">/// trait so it is possible to simply alter the `Result` yielded to the</span>
<span class="doccomment">/// closure and return it.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Note that this function consumes the receiving stream and returns a</span>
<span class="doccomment">/// wrapped version of it.</span>
<span class="kw">fn</span> <span class="ident">or_else</span><span class="op"><</span><span class="ident">F</span>, <span class="ident">U</span><span class="op">></span>(<span class="self">self</span>, <span class="ident">f</span>: <span class="ident">F</span>) <span class="op">-></span> <span class="ident">OrElse</span><span class="op"><</span><span class="self">Self</span>, <span class="ident">F</span>, <span class="ident">U</span><span class="op">></span>
<span class="kw">where</span> <span class="ident">F</span>: <span class="ident">FnMut</span>(<span class="self">Self</span>::<span class="ident">Error</span>) <span class="op">-></span> <span class="ident">U</span>,
<span class="ident">U</span>: <span class="ident">IntoFuture</span><span class="op"><</span><span class="ident">Item</span> <span class="op">=</span> <span class="self">Self</span>::<span class="ident">Item</span><span class="op">></span>,
<span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">or_else</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">f</span>)
}
<span class="doccomment">/// Collect all of the values of this stream into a vector, returning a</span>
<span class="doccomment">/// future representing the result of that computation.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This combinator will collect all successful results of this stream and</span>
<span class="doccomment">/// collect them into a `Vec<Self::Item>`. If an error happens then all</span>
<span class="doccomment">/// collected elements will be dropped and the error will be returned.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// The returned future will be resolved whenever an error happens or when</span>
<span class="doccomment">/// the stream returns `Ok(None)`.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This method is only available when the `use_std` feature of this</span>
<span class="doccomment">/// library is activated, and it is activated by default.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// # Examples</span>
<span class="doccomment">///</span>
<span class="doccomment">/// ```</span>
<span class="doccomment">/// use std::thread;</span>
<span class="doccomment">///</span>
<span class="doccomment">/// use futures::prelude::*;</span>
<span class="doccomment">/// use futures::sync::mpsc;</span>
<span class="doccomment">///</span>
<span class="doccomment">/// let (mut tx, rx) = mpsc::channel(1);</span>
<span class="doccomment">///</span>
<span class="doccomment">/// thread::spawn(|| {</span>
<span class="doccomment">/// for i in (0..5).rev() {</span>
<span class="doccomment">/// tx = tx.send(i + 1).wait().unwrap();</span>
<span class="doccomment">/// }</span>
<span class="doccomment">/// });</span>
<span class="doccomment">///</span>
<span class="doccomment">/// let mut result = rx.collect();</span>
<span class="doccomment">/// assert_eq!(result.wait(), Ok(vec![5, 4, 3, 2, 1]));</span>
<span class="doccomment">/// ```</span>
<span class="attribute">#[<span class="ident">cfg</span>(<span class="ident">feature</span> <span class="op">=</span> <span class="string">"use_std"</span>)]</span>
<span class="kw">fn</span> <span class="ident">collect</span>(<span class="self">self</span>) <span class="op">-></span> <span class="ident">Collect</span><span class="op"><</span><span class="self">Self</span><span class="op">></span>
<span class="kw">where</span> <span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">collect</span>::<span class="ident">new</span>(<span class="self">self</span>)
}
<span class="doccomment">/// Concatenate all results of a stream into a single extendable</span>
<span class="doccomment">/// destination, returning a future representing the end result.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This combinator will extend the first item with the contents</span>
<span class="doccomment">/// of all the successful results of the stream. If the stream is</span>
<span class="doccomment">/// empty, the default value will be returned. If an error occurs,</span>
<span class="doccomment">/// all the results will be dropped and the error will be returned.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// The name `concat2` is an intermediate measure until the release of</span>
<span class="doccomment">/// futures 0.2, at which point it will be renamed back to `concat`.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// # Examples</span>
<span class="doccomment">///</span>
<span class="doccomment">/// ```</span>
<span class="doccomment">/// use std::thread;</span>
<span class="doccomment">///</span>
<span class="doccomment">/// use futures::prelude::*;</span>
<span class="doccomment">/// use futures::sync::mpsc;</span>
<span class="doccomment">///</span>
<span class="doccomment">/// let (mut tx, rx) = mpsc::channel(1);</span>
<span class="doccomment">///</span>
<span class="doccomment">/// thread::spawn(move || {</span>
<span class="doccomment">/// for i in (0..3).rev() {</span>
<span class="doccomment">/// let n = i * 3;</span>
<span class="doccomment">/// tx = tx.send(vec![n + 1, n + 2, n + 3]).wait().unwrap();</span>
<span class="doccomment">/// }</span>
<span class="doccomment">/// });</span>
<span class="doccomment">/// let result = rx.concat2();</span>
<span class="doccomment">/// assert_eq!(result.wait(), Ok(vec![7, 8, 9, 4, 5, 6, 1, 2, 3]));</span>
<span class="doccomment">/// ```</span>
<span class="kw">fn</span> <span class="ident">concat2</span>(<span class="self">self</span>) <span class="op">-></span> <span class="ident">Concat2</span><span class="op"><</span><span class="self">Self</span><span class="op">></span>
<span class="kw">where</span> <span class="self">Self</span>: <span class="ident">Sized</span>,
<span class="self">Self</span>::<span class="ident">Item</span>: <span class="ident">Extend</span><span class="op"><<</span><span class="op"><</span><span class="self">Self</span> <span class="kw">as</span> <span class="ident">Stream</span><span class="op">></span>::<span class="ident">Item</span> <span class="kw">as</span> <span class="ident">IntoIterator</span><span class="op">></span>::<span class="ident">Item</span><span class="op">></span> <span class="op">+</span> <span class="ident">IntoIterator</span> <span class="op">+</span> <span class="ident">Default</span>,
{
<span class="ident">concat</span>::<span class="ident">new2</span>(<span class="self">self</span>)
}
<span class="doccomment">/// Concatenate all results of a stream into a single extendable</span>
<span class="doccomment">/// destination, returning a future representing the end result.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This combinator will extend the first item with the contents</span>
<span class="doccomment">/// of all the successful results of the stream. If an error occurs,</span>
<span class="doccomment">/// all the results will be dropped and the error will be returned.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// # Examples</span>
<span class="doccomment">///</span>
<span class="doccomment">/// ```</span>
<span class="doccomment">/// use std::thread;</span>
<span class="doccomment">///</span>
<span class="doccomment">/// use futures::prelude::*;</span>
<span class="doccomment">/// use futures::sync::mpsc;</span>
<span class="doccomment">///</span>
<span class="doccomment">/// let (mut tx, rx) = mpsc::channel(1);</span>
<span class="doccomment">///</span>
<span class="doccomment">/// thread::spawn(move || {</span>
<span class="doccomment">/// for i in (0..3).rev() {</span>
<span class="doccomment">/// let n = i * 3;</span>
<span class="doccomment">/// tx = tx.send(vec![n + 1, n + 2, n + 3]).wait().unwrap();</span>
<span class="doccomment">/// }</span>
<span class="doccomment">/// });</span>
<span class="doccomment">/// let result = rx.concat();</span>
<span class="doccomment">/// assert_eq!(result.wait(), Ok(vec![7, 8, 9, 4, 5, 6, 1, 2, 3]));</span>
<span class="doccomment">/// ```</span>
<span class="doccomment">///</span>
<span class="doccomment">/// # Panics</span>
<span class="doccomment">///</span>
<span class="doccomment">/// It's important to note that this function will panic if the stream</span>
<span class="doccomment">/// is empty, which is the reason for its deprecation.</span>
<span class="attribute">#[<span class="ident">deprecated</span>(<span class="ident">since</span><span class="op">=</span><span class="string">"0.1.14"</span>, <span class="ident">note</span><span class="op">=</span><span class="string">"please use `Stream::concat2` instead"</span>)]</span>
<span class="attribute">#[<span class="ident">allow</span>(<span class="ident">deprecated</span>)]</span>
<span class="kw">fn</span> <span class="ident">concat</span>(<span class="self">self</span>) <span class="op">-></span> <span class="ident">Concat</span><span class="op"><</span><span class="self">Self</span><span class="op">></span>
<span class="kw">where</span> <span class="self">Self</span>: <span class="ident">Sized</span>,
<span class="self">Self</span>::<span class="ident">Item</span>: <span class="ident">Extend</span><span class="op"><<</span><span class="op"><</span><span class="self">Self</span> <span class="kw">as</span> <span class="ident">Stream</span><span class="op">></span>::<span class="ident">Item</span> <span class="kw">as</span> <span class="ident">IntoIterator</span><span class="op">></span>::<span class="ident">Item</span><span class="op">></span> <span class="op">+</span> <span class="ident">IntoIterator</span>,
{
<span class="ident">concat</span>::<span class="ident">new</span>(<span class="self">self</span>)
}
<span class="doccomment">/// Execute an accumulating computation over a stream, collecting all the</span>
<span class="doccomment">/// values into one final result.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This combinator will collect all successful results of this stream</span>
<span class="doccomment">/// according to the closure provided. The initial state is also provided to</span>
<span class="doccomment">/// this method and then is returned again by each execution of the closure.</span>
<span class="doccomment">/// Once the entire stream has been exhausted the returned future will</span>
<span class="doccomment">/// resolve to this value.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// If an error happens then collected state will be dropped and the error</span>
<span class="doccomment">/// will be returned.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// # Examples</span>
<span class="doccomment">///</span>
<span class="doccomment">/// ```</span>
<span class="doccomment">/// use futures::prelude::*;</span>
<span class="doccomment">/// use futures::stream;</span>
<span class="doccomment">/// use futures::future;</span>
<span class="doccomment">///</span>
<span class="doccomment">/// let number_stream = stream::iter_ok::<_, ()>(0..6);</span>
<span class="doccomment">/// let sum = number_stream.fold(0, |acc, x| future::ok(acc + x));</span>
<span class="doccomment">/// assert_eq!(sum.wait(), Ok(15));</span>
<span class="doccomment">/// ```</span>
<span class="kw">fn</span> <span class="ident">fold</span><span class="op"><</span><span class="ident">F</span>, <span class="ident">T</span>, <span class="ident">Fut</span><span class="op">></span>(<span class="self">self</span>, <span class="ident">init</span>: <span class="ident">T</span>, <span class="ident">f</span>: <span class="ident">F</span>) <span class="op">-></span> <span class="ident">Fold</span><span class="op"><</span><span class="self">Self</span>, <span class="ident">F</span>, <span class="ident">Fut</span>, <span class="ident">T</span><span class="op">></span>
<span class="kw">where</span> <span class="ident">F</span>: <span class="ident">FnMut</span>(<span class="ident">T</span>, <span class="self">Self</span>::<span class="ident">Item</span>) <span class="op">-></span> <span class="ident">Fut</span>,
<span class="ident">Fut</span>: <span class="ident">IntoFuture</span><span class="op"><</span><span class="ident">Item</span> <span class="op">=</span> <span class="ident">T</span><span class="op">></span>,
<span class="self">Self</span>::<span class="ident">Error</span>: <span class="ident">From</span><span class="op"><</span><span class="ident">Fut</span>::<span class="ident">Error</span><span class="op">></span>,
<span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">fold</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">f</span>, <span class="ident">init</span>)
}
<span class="doccomment">/// Flattens a stream of streams into just one continuous stream.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// If this stream's elements are themselves streams then this combinator</span>
<span class="doccomment">/// will flatten out the entire stream to one long chain of elements. Any</span>
<span class="doccomment">/// errors are passed through without looking at them, but otherwise each</span>
<span class="doccomment">/// individual stream will get exhausted before moving on to the next.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// ```</span>
<span class="doccomment">/// use std::thread;</span>
<span class="doccomment">///</span>
<span class="doccomment">/// use futures::prelude::*;</span>
<span class="doccomment">/// use futures::sync::mpsc;</span>
<span class="doccomment">///</span>
<span class="doccomment">/// let (tx1, rx1) = mpsc::channel::<i32>(1);</span>
<span class="doccomment">/// let (tx2, rx2) = mpsc::channel::<i32>(1);</span>
<span class="doccomment">/// let (tx3, rx3) = mpsc::channel(1);</span>
<span class="doccomment">///</span>
<span class="doccomment">/// thread::spawn(|| {</span>
<span class="doccomment">/// tx1.send(1).wait().unwrap()</span>
<span class="doccomment">/// .send(2).wait().unwrap();</span>
<span class="doccomment">/// });</span>
<span class="doccomment">/// thread::spawn(|| {</span>
<span class="doccomment">/// tx2.send(3).wait().unwrap()</span>
<span class="doccomment">/// .send(4).wait().unwrap();</span>
<span class="doccomment">/// });</span>
<span class="doccomment">/// thread::spawn(|| {</span>
<span class="doccomment">/// tx3.send(rx1).wait().unwrap()</span>
<span class="doccomment">/// .send(rx2).wait().unwrap();</span>
<span class="doccomment">/// });</span>
<span class="doccomment">///</span>
<span class="doccomment">/// let mut result = rx3.flatten().collect();</span>
<span class="doccomment">/// assert_eq!(result.wait(), Ok(vec![1, 2, 3, 4]));</span>
<span class="doccomment">/// ```</span>
<span class="kw">fn</span> <span class="ident">flatten</span>(<span class="self">self</span>) <span class="op">-></span> <span class="ident">Flatten</span><span class="op"><</span><span class="self">Self</span><span class="op">></span>
<span class="kw">where</span> <span class="self">Self</span>::<span class="ident">Item</span>: <span class="ident">Stream</span>,
<span class="op"><</span><span class="self">Self</span>::<span class="ident">Item</span> <span class="kw">as</span> <span class="ident">Stream</span><span class="op">></span>::<span class="ident">Error</span>: <span class="ident">From</span><span class="op"><</span><span class="self">Self</span>::<span class="ident">Error</span><span class="op">></span>,
<span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">flatten</span>::<span class="ident">new</span>(<span class="self">self</span>)
}
<span class="doccomment">/// Skip elements on this stream while the predicate provided resolves to</span>
<span class="doccomment">/// `true`.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This function, like `Iterator::skip_while`, will skip elements on the</span>
<span class="doccomment">/// stream until the `predicate` resolves to `false`. Once one element</span>
<span class="doccomment">/// returns false all future elements will be returned from the underlying</span>
<span class="doccomment">/// stream.</span>
<span class="kw">fn</span> <span class="ident">skip_while</span><span class="op"><</span><span class="ident">P</span>, <span class="ident">R</span><span class="op">></span>(<span class="self">self</span>, <span class="ident">pred</span>: <span class="ident">P</span>) <span class="op">-></span> <span class="ident">SkipWhile</span><span class="op"><</span><span class="self">Self</span>, <span class="ident">P</span>, <span class="ident">R</span><span class="op">></span>
<span class="kw">where</span> <span class="ident">P</span>: <span class="ident">FnMut</span>(<span class="kw-2">&</span><span class="self">Self</span>::<span class="ident">Item</span>) <span class="op">-></span> <span class="ident">R</span>,
<span class="ident">R</span>: <span class="ident">IntoFuture</span><span class="op"><</span><span class="ident">Item</span><span class="op">=</span><span class="ident">bool</span>, <span class="ident">Error</span><span class="op">=</span><span class="self">Self</span>::<span class="ident">Error</span><span class="op">></span>,
<span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">skip_while</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">pred</span>)
}
<span class="doccomment">/// Take elements from this stream while the predicate provided resolves to</span>
<span class="doccomment">/// `true`.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This function, like `Iterator::take_while`, will take elements from the</span>
<span class="doccomment">/// stream until the `predicate` resolves to `false`. Once one element</span>
<span class="doccomment">/// returns false it will always return that the stream is done.</span>
<span class="kw">fn</span> <span class="ident">take_while</span><span class="op"><</span><span class="ident">P</span>, <span class="ident">R</span><span class="op">></span>(<span class="self">self</span>, <span class="ident">pred</span>: <span class="ident">P</span>) <span class="op">-></span> <span class="ident">TakeWhile</span><span class="op"><</span><span class="self">Self</span>, <span class="ident">P</span>, <span class="ident">R</span><span class="op">></span>
<span class="kw">where</span> <span class="ident">P</span>: <span class="ident">FnMut</span>(<span class="kw-2">&</span><span class="self">Self</span>::<span class="ident">Item</span>) <span class="op">-></span> <span class="ident">R</span>,
<span class="ident">R</span>: <span class="ident">IntoFuture</span><span class="op"><</span><span class="ident">Item</span><span class="op">=</span><span class="ident">bool</span>, <span class="ident">Error</span><span class="op">=</span><span class="self">Self</span>::<span class="ident">Error</span><span class="op">></span>,
<span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">take_while</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">pred</span>)
}
<span class="doccomment">/// Runs this stream to completion, executing the provided closure for each</span>
<span class="doccomment">/// element on the stream.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// The closure provided will be called for each item this stream resolves</span>
<span class="doccomment">/// to successfully, producing a future. That future will then be executed</span>
<span class="doccomment">/// to completion before moving on to the next item.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// The returned value is a `Future` where the `Item` type is `()` and</span>
<span class="doccomment">/// errors are otherwise threaded through. Any error on the stream or in the</span>
<span class="doccomment">/// closure will cause iteration to be halted immediately and the future</span>
<span class="doccomment">/// will resolve to that error.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// To process each item in the stream and produce another stream instead</span>
<span class="doccomment">/// of a single future, use `and_then` instead.</span>
<span class="kw">fn</span> <span class="ident">for_each</span><span class="op"><</span><span class="ident">F</span>, <span class="ident">U</span><span class="op">></span>(<span class="self">self</span>, <span class="ident">f</span>: <span class="ident">F</span>) <span class="op">-></span> <span class="ident">ForEach</span><span class="op"><</span><span class="self">Self</span>, <span class="ident">F</span>, <span class="ident">U</span><span class="op">></span>
<span class="kw">where</span> <span class="ident">F</span>: <span class="ident">FnMut</span>(<span class="self">Self</span>::<span class="ident">Item</span>) <span class="op">-></span> <span class="ident">U</span>,
<span class="ident">U</span>: <span class="ident">IntoFuture</span><span class="op"><</span><span class="ident">Item</span><span class="op">=</span>(), <span class="ident">Error</span> <span class="op">=</span> <span class="self">Self</span>::<span class="ident">Error</span><span class="op">></span>,
<span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">for_each</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">f</span>)
}
<span class="doccomment">/// Map this stream's error to any error implementing `From` for</span>
<span class="doccomment">/// this stream's `Error`, returning a new stream.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This function does for streams what `try!` does for `Result`,</span>
<span class="doccomment">/// by letting the compiler infer the type of the resulting error.</span>
<span class="doccomment">/// Just as `map_err` above, this is useful for example to ensure</span>
<span class="doccomment">/// that streams have the same error type when used with</span>
<span class="doccomment">/// combinators.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Note that this function consumes the receiving stream and returns a</span>
<span class="doccomment">/// wrapped version of it.</span>
<span class="kw">fn</span> <span class="ident">from_err</span><span class="op"><</span><span class="ident">E</span>: <span class="ident">From</span><span class="op"><</span><span class="self">Self</span>::<span class="ident">Error</span><span class="op">>></span>(<span class="self">self</span>) <span class="op">-></span> <span class="ident">FromErr</span><span class="op"><</span><span class="self">Self</span>, <span class="ident">E</span><span class="op">></span>
<span class="kw">where</span> <span class="self">Self</span>: <span class="ident">Sized</span>,
{
<span class="ident">from_err</span>::<span class="ident">new</span>(<span class="self">self</span>)
}
<span class="doccomment">/// Creates a new stream of at most `amt` items of the underlying stream.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Once `amt` items have been yielded from this stream then it will always</span>
<span class="doccomment">/// return that the stream is done.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// # Errors</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Any errors yielded from underlying stream, before the desired amount of</span>
<span class="doccomment">/// items is reached, are passed through and do not affect the total number</span>
<span class="doccomment">/// of items taken.</span>
<span class="kw">fn</span> <span class="ident">take</span>(<span class="self">self</span>, <span class="ident">amt</span>: <span class="ident">u64</span>) <span class="op">-></span> <span class="ident">Take</span><span class="op"><</span><span class="self">Self</span><span class="op">></span>
<span class="kw">where</span> <span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">take</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">amt</span>)
}
<span class="doccomment">/// Creates a new stream which skips `amt` items of the underlying stream.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Once `amt` items have been skipped from this stream then it will always</span>
<span class="doccomment">/// return the remaining items on this stream.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// # Errors</span>
<span class="doccomment">///</span>
<span class="doccomment">/// All errors yielded from underlying stream are passed through and do not</span>
<span class="doccomment">/// affect the total number of items skipped.</span>
<span class="kw">fn</span> <span class="ident">skip</span>(<span class="self">self</span>, <span class="ident">amt</span>: <span class="ident">u64</span>) <span class="op">-></span> <span class="ident">Skip</span><span class="op"><</span><span class="self">Self</span><span class="op">></span>
<span class="kw">where</span> <span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">skip</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">amt</span>)
}
<span class="doccomment">/// Fuse a stream such that `poll` will never again be called once it has</span>
<span class="doccomment">/// finished.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Currently once a stream has returned `None` from `poll` any further</span>
<span class="doccomment">/// calls could exhibit bad behavior such as block forever, panic, never</span>
<span class="doccomment">/// return, etc. If it is known that `poll` may be called after stream has</span>
<span class="doccomment">/// already finished, then this method can be used to ensure that it has</span>
<span class="doccomment">/// defined semantics.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Once a stream has been `fuse`d and it finishes, then it will forever</span>
<span class="doccomment">/// return `None` from `poll`. This, unlike for the traits `poll` method,</span>
<span class="doccomment">/// is guaranteed.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Also note that as soon as this stream returns `None` it will be dropped</span>
<span class="doccomment">/// to reclaim resources associated with it.</span>
<span class="kw">fn</span> <span class="ident">fuse</span>(<span class="self">self</span>) <span class="op">-></span> <span class="ident">Fuse</span><span class="op"><</span><span class="self">Self</span><span class="op">></span>
<span class="kw">where</span> <span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">fuse</span>::<span class="ident">new</span>(<span class="self">self</span>)
}
<span class="doccomment">/// Borrows a stream, rather than consuming it.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This is useful to allow applying stream adaptors while still retaining</span>
<span class="doccomment">/// ownership of the original stream.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// ```</span>
<span class="doccomment">/// use futures::prelude::*;</span>
<span class="doccomment">/// use futures::stream;</span>
<span class="doccomment">/// use futures::future;</span>
<span class="doccomment">///</span>
<span class="doccomment">/// let mut stream = stream::iter_ok::<_, ()>(1..5);</span>
<span class="doccomment">///</span>
<span class="doccomment">/// let sum = stream.by_ref().take(2).fold(0, |a, b| future::ok(a + b)).wait();</span>
<span class="doccomment">/// assert_eq!(sum, Ok(3));</span>
<span class="doccomment">///</span>
<span class="doccomment">/// // You can use the stream again</span>
<span class="doccomment">/// let sum = stream.take(2).fold(0, |a, b| future::ok(a + b)).wait();</span>
<span class="doccomment">/// assert_eq!(sum, Ok(7));</span>
<span class="doccomment">/// ```</span>
<span class="kw">fn</span> <span class="ident">by_ref</span>(<span class="kw-2">&</span><span class="kw-2">mut</span> <span class="self">self</span>) <span class="op">-></span> <span class="kw-2">&</span><span class="kw-2">mut</span> <span class="self">Self</span>
<span class="kw">where</span> <span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="self">self</span>
}
<span class="doccomment">/// Catches unwinding panics while polling the stream.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Caught panic (if any) will be the last element of the resulting stream.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// In general, panics within a stream can propagate all the way out to the</span>
<span class="doccomment">/// task level. This combinator makes it possible to halt unwinding within</span>
<span class="doccomment">/// the stream itself. It's most commonly used within task executors. This</span>
<span class="doccomment">/// method should not be used for error handling.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Note that this method requires the `UnwindSafe` bound from the standard</span>
<span class="doccomment">/// library. This isn't always applied automatically, and the standard</span>
<span class="doccomment">/// library provides an `AssertUnwindSafe` wrapper type to apply it</span>
<span class="doccomment">/// after-the fact. To assist using this method, the `Stream` trait is also</span>
<span class="doccomment">/// implemented for `AssertUnwindSafe<S>` where `S` implements `Stream`.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This method is only available when the `use_std` feature of this</span>
<span class="doccomment">/// library is activated, and it is activated by default.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// # Examples</span>
<span class="doccomment">///</span>
<span class="doccomment">/// ```rust</span>
<span class="doccomment">/// use futures::prelude::*;</span>
<span class="doccomment">/// use futures::stream;</span>
<span class="doccomment">///</span>
<span class="doccomment">/// let stream = stream::iter_ok::<_, bool>(vec![Some(10), None, Some(11)]);</span>
<span class="doccomment">/// // panic on second element</span>
<span class="doccomment">/// let stream_panicking = stream.map(|o| o.unwrap());</span>
<span class="doccomment">/// let mut iter = stream_panicking.catch_unwind().wait();</span>
<span class="doccomment">///</span>
<span class="doccomment">/// assert_eq!(Ok(10), iter.next().unwrap().ok().unwrap());</span>
<span class="doccomment">/// assert!(iter.next().unwrap().is_err());</span>
<span class="doccomment">/// assert!(iter.next().is_none());</span>
<span class="doccomment">/// ```</span>
<span class="attribute">#[<span class="ident">cfg</span>(<span class="ident">feature</span> <span class="op">=</span> <span class="string">"use_std"</span>)]</span>
<span class="kw">fn</span> <span class="ident">catch_unwind</span>(<span class="self">self</span>) <span class="op">-></span> <span class="ident">CatchUnwind</span><span class="op"><</span><span class="self">Self</span><span class="op">></span>
<span class="kw">where</span> <span class="self">Self</span>: <span class="ident">Sized</span> <span class="op">+</span> <span class="ident">std</span>::<span class="ident">panic</span>::<span class="ident">UnwindSafe</span>
{
<span class="ident">catch_unwind</span>::<span class="ident">new</span>(<span class="self">self</span>)
}
<span class="doccomment">/// An adaptor for creating a buffered list of pending futures.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// If this stream's item can be converted into a future, then this adaptor</span>
<span class="doccomment">/// will buffer up to at most `amt` futures and then return results in the</span>
<span class="doccomment">/// same order as the underlying stream. No more than `amt` futures will be</span>
<span class="doccomment">/// buffered at any point in time, and less than `amt` may also be buffered</span>
<span class="doccomment">/// depending on the state of each future.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// The returned stream will be a stream of each future's result, with</span>
<span class="doccomment">/// errors passed through whenever they occur.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This method is only available when the `use_std` feature of this</span>
<span class="doccomment">/// library is activated, and it is activated by default.</span>
<span class="attribute">#[<span class="ident">cfg</span>(<span class="ident">feature</span> <span class="op">=</span> <span class="string">"use_std"</span>)]</span>
<span class="kw">fn</span> <span class="ident">buffered</span>(<span class="self">self</span>, <span class="ident">amt</span>: <span class="ident">usize</span>) <span class="op">-></span> <span class="ident">Buffered</span><span class="op"><</span><span class="self">Self</span><span class="op">></span>
<span class="kw">where</span> <span class="self">Self</span>::<span class="ident">Item</span>: <span class="ident">IntoFuture</span><span class="op"><</span><span class="ident">Error</span> <span class="op">=</span> <span class="op"><</span><span class="self">Self</span> <span class="kw">as</span> <span class="ident">Stream</span><span class="op">></span>::<span class="ident">Error</span><span class="op">></span>,
<span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">buffered</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">amt</span>)
}
<span class="doccomment">/// An adaptor for creating a buffered list of pending futures (unordered).</span>
<span class="doccomment">///</span>
<span class="doccomment">/// If this stream's item can be converted into a future, then this adaptor</span>
<span class="doccomment">/// will buffer up to `amt` futures and then return results in the order</span>
<span class="doccomment">/// in which they complete. No more than `amt` futures will be buffered at</span>
<span class="doccomment">/// any point in time, and less than `amt` may also be buffered depending on</span>
<span class="doccomment">/// the state of each future.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// The returned stream will be a stream of each future's result, with</span>
<span class="doccomment">/// errors passed through whenever they occur.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This method is only available when the `use_std` feature of this</span>
<span class="doccomment">/// library is activated, and it is activated by default.</span>
<span class="attribute">#[<span class="ident">cfg</span>(<span class="ident">feature</span> <span class="op">=</span> <span class="string">"use_std"</span>)]</span>
<span class="kw">fn</span> <span class="ident">buffer_unordered</span>(<span class="self">self</span>, <span class="ident">amt</span>: <span class="ident">usize</span>) <span class="op">-></span> <span class="ident">BufferUnordered</span><span class="op"><</span><span class="self">Self</span><span class="op">></span>
<span class="kw">where</span> <span class="self">Self</span>::<span class="ident">Item</span>: <span class="ident">IntoFuture</span><span class="op"><</span><span class="ident">Error</span> <span class="op">=</span> <span class="op"><</span><span class="self">Self</span> <span class="kw">as</span> <span class="ident">Stream</span><span class="op">></span>::<span class="ident">Error</span><span class="op">></span>,
<span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">buffer_unordered</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">amt</span>)
}
<span class="doccomment">/// An adapter for merging the output of two streams.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// The merged stream produces items from one or both of the underlying</span>
<span class="doccomment">/// streams as they become available. Errors, however, are not merged: you</span>
<span class="doccomment">/// get at most one error at a time.</span>
<span class="attribute">#[<span class="ident">deprecated</span>(<span class="ident">note</span> <span class="op">=</span> <span class="string">"functionality provided by `select` now"</span>)]</span>
<span class="attribute">#[<span class="ident">allow</span>(<span class="ident">deprecated</span>)]</span>
<span class="kw">fn</span> <span class="ident">merge</span><span class="op"><</span><span class="ident">S</span><span class="op">></span>(<span class="self">self</span>, <span class="ident">other</span>: <span class="ident">S</span>) <span class="op">-></span> <span class="ident">Merge</span><span class="op"><</span><span class="self">Self</span>, <span class="ident">S</span><span class="op">></span>
<span class="kw">where</span> <span class="ident">S</span>: <span class="ident">Stream</span><span class="op"><</span><span class="ident">Error</span> <span class="op">=</span> <span class="self">Self</span>::<span class="ident">Error</span><span class="op">></span>,
<span class="self">Self</span>: <span class="ident">Sized</span>,
{
<span class="ident">merge</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">other</span>)
}
<span class="doccomment">/// An adapter for zipping two streams together.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// The zipped stream waits for both streams to produce an item, and then</span>
<span class="doccomment">/// returns that pair. If an error happens, then that error will be returned</span>
<span class="doccomment">/// immediately. If either stream ends then the zipped stream will also end.</span>
<span class="kw">fn</span> <span class="ident">zip</span><span class="op"><</span><span class="ident">S</span><span class="op">></span>(<span class="self">self</span>, <span class="ident">other</span>: <span class="ident">S</span>) <span class="op">-></span> <span class="ident">Zip</span><span class="op"><</span><span class="self">Self</span>, <span class="ident">S</span><span class="op">></span>
<span class="kw">where</span> <span class="ident">S</span>: <span class="ident">Stream</span><span class="op"><</span><span class="ident">Error</span> <span class="op">=</span> <span class="self">Self</span>::<span class="ident">Error</span><span class="op">></span>,
<span class="self">Self</span>: <span class="ident">Sized</span>,
{
<span class="ident">zip</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">other</span>)
}
<span class="doccomment">/// Adapter for chaining two stream.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// The resulting stream emits elements from the first stream, and when</span>
<span class="doccomment">/// first stream reaches the end, emits the elements from the second stream.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// ```rust</span>
<span class="doccomment">/// use futures::prelude::*;</span>
<span class="doccomment">/// use futures::stream;</span>
<span class="doccomment">///</span>
<span class="doccomment">/// let stream1 = stream::iter_result(vec![Ok(10), Err(false)]);</span>
<span class="doccomment">/// let stream2 = stream::iter_result(vec![Err(true), Ok(20)]);</span>
<span class="doccomment">/// let mut chain = stream1.chain(stream2).wait();</span>
<span class="doccomment">///</span>
<span class="doccomment">/// assert_eq!(Some(Ok(10)), chain.next());</span>
<span class="doccomment">/// assert_eq!(Some(Err(false)), chain.next());</span>
<span class="doccomment">/// assert_eq!(Some(Err(true)), chain.next());</span>
<span class="doccomment">/// assert_eq!(Some(Ok(20)), chain.next());</span>
<span class="doccomment">/// assert_eq!(None, chain.next());</span>
<span class="doccomment">/// ```</span>
<span class="kw">fn</span> <span class="ident">chain</span><span class="op"><</span><span class="ident">S</span><span class="op">></span>(<span class="self">self</span>, <span class="ident">other</span>: <span class="ident">S</span>) <span class="op">-></span> <span class="ident">Chain</span><span class="op"><</span><span class="self">Self</span>, <span class="ident">S</span><span class="op">></span>
<span class="kw">where</span> <span class="ident">S</span>: <span class="ident">Stream</span><span class="op"><</span><span class="ident">Item</span> <span class="op">=</span> <span class="self">Self</span>::<span class="ident">Item</span>, <span class="ident">Error</span> <span class="op">=</span> <span class="self">Self</span>::<span class="ident">Error</span><span class="op">></span>,
<span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">chain</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">other</span>)
}
<span class="doccomment">/// Creates a new stream which exposes a `peek` method.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Calling `peek` returns a reference to the next item in the stream.</span>
<span class="kw">fn</span> <span class="ident">peekable</span>(<span class="self">self</span>) <span class="op">-></span> <span class="ident">Peekable</span><span class="op"><</span><span class="self">Self</span><span class="op">></span>
<span class="kw">where</span> <span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">peek</span>::<span class="ident">new</span>(<span class="self">self</span>)
}
<span class="doccomment">/// An adaptor for chunking up items of the stream inside a vector.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This combinator will attempt to pull items from this stream and buffer</span>
<span class="doccomment">/// them into a local vector. At most `capacity` items will get buffered</span>
<span class="doccomment">/// before they're yielded from the returned stream.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Note that the vectors returned from this iterator may not always have</span>
<span class="doccomment">/// `capacity` elements. If the underlying stream ended and only a partial</span>
<span class="doccomment">/// vector was created, it'll be returned. Additionally if an error happens</span>
<span class="doccomment">/// from the underlying stream then the currently buffered items will be</span>
<span class="doccomment">/// yielded.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Errors are passed through the stream unbuffered.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This method is only available when the `use_std` feature of this</span>
<span class="doccomment">/// library is activated, and it is activated by default.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// # Panics</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This method will panic of `capacity` is zero.</span>
<span class="attribute">#[<span class="ident">cfg</span>(<span class="ident">feature</span> <span class="op">=</span> <span class="string">"use_std"</span>)]</span>
<span class="kw">fn</span> <span class="ident">chunks</span>(<span class="self">self</span>, <span class="ident">capacity</span>: <span class="ident">usize</span>) <span class="op">-></span> <span class="ident">Chunks</span><span class="op"><</span><span class="self">Self</span><span class="op">></span>
<span class="kw">where</span> <span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">chunks</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">capacity</span>)
}
<span class="doccomment">/// Creates a stream that selects the next element from either this stream</span>
<span class="doccomment">/// or the provided one, whichever is ready first.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This combinator will attempt to pull items from both streams. Each</span>
<span class="doccomment">/// stream will be polled in a round-robin fashion, and whenever a stream is</span>
<span class="doccomment">/// ready to yield an item that item is yielded.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// The `select` function is similar to `merge` except that it requires both</span>
<span class="doccomment">/// streams to have the same item and error types.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Error are passed through from either stream.</span>
<span class="kw">fn</span> <span class="ident">select</span><span class="op"><</span><span class="ident">S</span><span class="op">></span>(<span class="self">self</span>, <span class="ident">other</span>: <span class="ident">S</span>) <span class="op">-></span> <span class="ident">Select</span><span class="op"><</span><span class="self">Self</span>, <span class="ident">S</span><span class="op">></span>
<span class="kw">where</span> <span class="ident">S</span>: <span class="ident">Stream</span><span class="op"><</span><span class="ident">Item</span> <span class="op">=</span> <span class="self">Self</span>::<span class="ident">Item</span>, <span class="ident">Error</span> <span class="op">=</span> <span class="self">Self</span>::<span class="ident">Error</span><span class="op">></span>,
<span class="self">Self</span>: <span class="ident">Sized</span>,
{
<span class="ident">select</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">other</span>)
}
<span class="doccomment">/// A future that completes after the given stream has been fully processed</span>
<span class="doccomment">/// into the sink, including flushing.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This future will drive the stream to keep producing items until it is</span>
<span class="doccomment">/// exhausted, sending each item to the sink. It will complete once both the</span>
<span class="doccomment">/// stream is exhausted, and the sink has fully processed received item,</span>
<span class="doccomment">/// flushed successfully, and closed successfully.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Doing `stream.forward(sink)` is roughly equivalent to</span>
<span class="doccomment">/// `sink.send_all(stream)`. The returned future will exhaust all items from</span>
<span class="doccomment">/// `self`, sending them all to `sink`. Furthermore the `sink` will be</span>
<span class="doccomment">/// closed and flushed.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// On completion, the pair `(stream, sink)` is returned.</span>
<span class="kw">fn</span> <span class="ident">forward</span><span class="op"><</span><span class="ident">S</span><span class="op">></span>(<span class="self">self</span>, <span class="ident">sink</span>: <span class="ident">S</span>) <span class="op">-></span> <span class="ident">Forward</span><span class="op"><</span><span class="self">Self</span>, <span class="ident">S</span><span class="op">></span>
<span class="kw">where</span> <span class="ident">S</span>: <span class="ident">Sink</span><span class="op"><</span><span class="ident">SinkItem</span> <span class="op">=</span> <span class="self">Self</span>::<span class="ident">Item</span><span class="op">></span>,
<span class="self">Self</span>::<span class="ident">Error</span>: <span class="ident">From</span><span class="op"><</span><span class="ident">S</span>::<span class="ident">SinkError</span><span class="op">></span>,
<span class="self">Self</span>: <span class="ident">Sized</span>
{
<span class="ident">forward</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">sink</span>)
}
<span class="doccomment">/// Splits this `Stream + Sink` object into separate `Stream` and `Sink`</span>
<span class="doccomment">/// objects.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This can be useful when you want to split ownership between tasks, or</span>
<span class="doccomment">/// allow direct interaction between the two objects (e.g. via</span>
<span class="doccomment">/// `Sink::send_all`).</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This method is only available when the `use_std` feature of this</span>
<span class="doccomment">/// library is activated, and it is activated by default.</span>
<span class="attribute">#[<span class="ident">cfg</span>(<span class="ident">feature</span> <span class="op">=</span> <span class="string">"use_std"</span>)]</span>
<span class="kw">fn</span> <span class="ident">split</span>(<span class="self">self</span>) <span class="op">-></span> (<span class="ident">SplitSink</span><span class="op"><</span><span class="self">Self</span><span class="op">></span>, <span class="ident">SplitStream</span><span class="op"><</span><span class="self">Self</span><span class="op">></span>)
<span class="kw">where</span> <span class="self">Self</span>: <span class="kw">super</span>::<span class="ident">sink</span>::<span class="ident">Sink</span> <span class="op">+</span> <span class="ident">Sized</span>
{
<span class="ident">split</span>::<span class="ident">split</span>(<span class="self">self</span>)
}
<span class="doccomment">/// Do something with each item of this stream, afterwards passing it on.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This is similar to the `Iterator::inspect` method in the standard</span>
<span class="doccomment">/// library where it allows easily inspecting each value as it passes</span>
<span class="doccomment">/// through the stream, for example to debug what's going on.</span>
<span class="kw">fn</span> <span class="ident">inspect</span><span class="op"><</span><span class="ident">F</span><span class="op">></span>(<span class="self">self</span>, <span class="ident">f</span>: <span class="ident">F</span>) <span class="op">-></span> <span class="ident">Inspect</span><span class="op"><</span><span class="self">Self</span>, <span class="ident">F</span><span class="op">></span>
<span class="kw">where</span> <span class="ident">F</span>: <span class="ident">FnMut</span>(<span class="kw-2">&</span><span class="self">Self</span>::<span class="ident">Item</span>),
<span class="self">Self</span>: <span class="ident">Sized</span>,
{
<span class="ident">inspect</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">f</span>)
}
<span class="doccomment">/// Do something with the error of this stream, afterwards passing it on.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This is similar to the `Stream::inspect` method where it allows</span>
<span class="doccomment">/// easily inspecting the error as it passes through the stream, for</span>
<span class="doccomment">/// example to debug what's going on.</span>
<span class="kw">fn</span> <span class="ident">inspect_err</span><span class="op"><</span><span class="ident">F</span><span class="op">></span>(<span class="self">self</span>, <span class="ident">f</span>: <span class="ident">F</span>) <span class="op">-></span> <span class="ident">InspectErr</span><span class="op"><</span><span class="self">Self</span>, <span class="ident">F</span><span class="op">></span>
<span class="kw">where</span> <span class="ident">F</span>: <span class="ident">FnMut</span>(<span class="kw-2">&</span><span class="self">Self</span>::<span class="ident">Error</span>),
<span class="self">Self</span>: <span class="ident">Sized</span>,
{
<span class="ident">inspect_err</span>::<span class="ident">new</span>(<span class="self">self</span>, <span class="ident">f</span>)
}
}
<span class="kw">impl</span><span class="op"><</span><span class="lifetime">'a</span>, <span class="ident">S</span>: <span class="question-mark">?</span><span class="ident">Sized</span> <span class="op">+</span> <span class="ident">Stream</span><span class="op">></span> <span class="ident">Stream</span> <span class="kw">for</span> <span class="kw-2">&</span><span class="lifetime">'a</span> <span class="kw-2">mut</span> <span class="ident">S</span> {
<span class="kw">type</span> <span class="ident">Item</span> <span class="op">=</span> <span class="ident">S</span>::<span class="ident">Item</span>;
<span class="kw">type</span> <span class="ident">Error</span> <span class="op">=</span> <span class="ident">S</span>::<span class="ident">Error</span>;
<span class="kw">fn</span> <span class="ident">poll</span>(<span class="kw-2">&</span><span class="kw-2">mut</span> <span class="self">self</span>) <span class="op">-></span> <span class="ident">Poll</span><span class="op"><</span><span class="prelude-ty">Option</span><span class="op"><</span><span class="self">Self</span>::<span class="ident">Item</span><span class="op">></span>, <span class="self">Self</span>::<span class="ident">Error</span><span class="op">></span> {
(<span class="kw-2">*</span><span class="kw-2">*</span><span class="self">self</span>).<span class="ident">poll</span>()
}
}
<span class="doccomment">/// Converts a list of futures into a `Stream` of results from the futures.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// This function will take an list of futures (e.g. a vector, an iterator,</span>
<span class="doccomment">/// etc), and return a stream. The stream will yield items as they become</span>
<span class="doccomment">/// available on the futures internally, in the order that they become</span>
<span class="doccomment">/// available. This function is similar to `buffer_unordered` in that it may</span>
<span class="doccomment">/// return items in a different order than in the list specified.</span>
<span class="doccomment">///</span>
<span class="doccomment">/// Note that the returned set can also be used to dynamically push more</span>
<span class="doccomment">/// futures into the set as they become available.</span>
<span class="attribute">#[<span class="ident">cfg</span>(<span class="ident">feature</span> <span class="op">=</span> <span class="string">"use_std"</span>)]</span>
<span class="kw">pub</span> <span class="kw">fn</span> <span class="ident">futures_unordered</span><span class="op"><</span><span class="ident">I</span><span class="op">></span>(<span class="ident">futures</span>: <span class="ident">I</span>) <span class="op">-></span> <span class="ident">FuturesUnordered</span><span class="op"><<</span><span class="ident">I</span>::<span class="ident">Item</span> <span class="kw">as</span> <span class="ident">IntoFuture</span><span class="op">></span>::<span class="ident">Future</span><span class="op">></span>
<span class="kw">where</span> <span class="ident">I</span>: <span class="ident">IntoIterator</span>,
<span class="ident">I</span>::<span class="ident">Item</span>: <span class="ident">IntoFuture</span>
{
<span class="kw">let</span> <span class="kw-2">mut</span> <span class="ident">set</span> <span class="op">=</span> <span class="ident">FuturesUnordered</span>::<span class="ident">new</span>();
<span class="kw">for</span> <span class="ident">future</span> <span class="kw">in</span> <span class="ident">futures</span> {
<span class="ident">set</span>.<span class="ident">push</span>(<span class="ident">future</span>.<span class="ident">into_future</span>());
}
<span class="kw">return</span> <span class="ident">set</span>
}
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