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//! Tools and combinators for I/O. //! //! # Examples //! //! ``` //! use futures_lite::io::{self, AsyncReadExt}; //! //! # spin_on::spin_on(async { //! let input: &[u8] = b"hello"; //! let mut reader = io::BufReader::new(input); //! //! let mut contents = String::new(); //! reader.read_to_string(&mut contents).await?; //! # std::io::Result::Ok(()) }); //! ``` #[doc(no_inline)] pub use std::io::{Error, ErrorKind, Result, SeekFrom}; #[doc(no_inline)] pub use futures_io::{AsyncBufRead, AsyncRead, AsyncSeek, AsyncWrite}; use std::cmp; use std::fmt; use std::future::Future; use std::io::{IoSlice, IoSliceMut}; use std::mem; use std::pin::Pin; use std::sync::{Arc, Mutex}; use std::task::{Context, Poll}; use futures_core::stream::Stream; use pin_project_lite::pin_project; use crate::future; use crate::ready; const DEFAULT_BUF_SIZE: usize = 8 * 1024; /// Copies the entire contents of a reader into a writer. /// /// This function will read data from `reader` and write it into `writer` in a streaming fashion /// until `reader` returns EOF. /// /// On success, returns the total number of bytes copied. /// /// # Examples /// /// ``` /// use futures_lite::io::{self, BufReader, BufWriter}; /// /// # spin_on::spin_on(async { /// let input: &[u8] = b"hello"; /// let reader = BufReader::new(input); /// /// let mut output = Vec::new(); /// let writer = BufWriter::new(&mut output); /// /// io::copy(reader, writer).await?; /// # std::io::Result::Ok(()) }); /// ``` pub async fn copy<R, W>(reader: R, writer: W) -> Result<u64> where R: AsyncRead + Unpin, W: AsyncWrite + Unpin, { pin_project! { struct CopyFuture<R, W> { #[pin] reader: R, #[pin] writer: W, amt: u64, } } impl<R, W> Future for CopyFuture<R, W> where R: AsyncBufRead, W: AsyncWrite + Unpin, { type Output = Result<u64>; fn poll(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> { let mut this = self.project(); loop { let buffer = ready!(this.reader.as_mut().poll_fill_buf(cx))?; if buffer.is_empty() { ready!(this.writer.as_mut().poll_flush(cx))?; return Poll::Ready(Ok(*this.amt)); } let i = ready!(this.writer.as_mut().poll_write(cx, buffer))?; if i == 0 { return Poll::Ready(Err(ErrorKind::WriteZero.into())); } *this.amt += i as u64; this.reader.as_mut().consume(i); } } } let future = CopyFuture { reader: BufReader::new(reader), writer, amt: 0, }; future.await } /// Asserts that a type implementing [`std::io`] traits can be used as an async type. /// /// The underlying I/O handle should never block nor return the [`ErrorKind::WouldBlock`] error. /// This is usually the case for in-memory buffered I/O. /// /// # Examples /// /// ``` /// use futures_lite::io::{AssertAsync, AsyncReadExt}; /// /// let reader: &[u8] = b"hello"; /// /// # spin_on::spin_on(async { /// let mut async_reader = AssertAsync::new(reader); /// let mut contents = String::new(); /// /// // This line works in async manner - note that there is await: /// async_reader.read_to_string(&mut contents).await?; /// # std::io::Result::Ok(()) }); /// ``` #[derive(Debug, Copy, Clone, Eq, PartialEq, Ord, PartialOrd, Hash)] pub struct AssertAsync<T>(T); impl<T> Unpin for AssertAsync<T> {} impl<T> AssertAsync<T> { /// Wraps an I/O handle implementing [`std::io`] traits. /// /// # Examples /// /// ``` /// use futures_lite::io::AssertAsync; /// /// let reader: &[u8] = b"hello"; /// /// let async_reader = AssertAsync::new(reader); /// ``` pub fn new(io: T) -> Self { AssertAsync(io) } /// Gets a reference to the inner I/O handle. /// /// # Examples /// /// ``` /// use futures_lite::io::AssertAsync; /// /// let reader: &[u8] = b"hello"; /// /// let async_reader = AssertAsync::new(reader); /// let r = async_reader.get_ref(); /// ``` pub fn get_ref(&self) -> &T { &self.0 } /// Gets a mutable reference to the inner I/O handle. /// /// # Examples /// /// ``` /// use futures_lite::io::AssertAsync; /// /// let reader: &[u8] = b"hello"; /// /// let mut async_reader = AssertAsync::new(reader); /// let r = async_reader.get_mut(); /// ``` pub fn get_mut(&mut self) -> &mut T { &mut self.0 } /// Extracts the inner I/O handle. /// /// # Examples /// /// ``` /// use futures_lite::io::AssertAsync; /// /// let reader: &[u8] = b"hello"; /// /// let async_reader = AssertAsync::new(reader); /// let inner = async_reader.into_inner(); /// ``` pub fn into_inner(self) -> T { self.0 } } impl<T: std::io::Read> AsyncRead for AssertAsync<T> { fn poll_read( mut self: Pin<&mut Self>, _: &mut Context<'_>, buf: &mut [u8], ) -> Poll<Result<usize>> { loop { match self.0.read(buf) { Err(err) if err.kind() == ErrorKind::Interrupted => {} res => return Poll::Ready(res), } } } fn poll_read_vectored( mut self: Pin<&mut Self>, _: &mut Context<'_>, bufs: &mut [IoSliceMut<'_>], ) -> Poll<Result<usize>> { loop { match self.0.read_vectored(bufs) { Err(err) if err.kind() == ErrorKind::Interrupted => {} res => return Poll::Ready(res), } } } } impl<T: std::io::Write> AsyncWrite for AssertAsync<T> { fn poll_write( mut self: Pin<&mut Self>, _: &mut Context<'_>, buf: &[u8], ) -> Poll<Result<usize>> { loop { match self.0.write(buf) { Err(err) if err.kind() == ErrorKind::Interrupted => {} res => return Poll::Ready(res), } } } fn poll_write_vectored( mut self: Pin<&mut Self>, _: &mut Context<'_>, bufs: &[IoSlice<'_>], ) -> Poll<Result<usize>> { loop { match self.0.write_vectored(bufs) { Err(err) if err.kind() == ErrorKind::Interrupted => {} res => return Poll::Ready(res), } } } fn poll_flush(mut self: Pin<&mut Self>, _: &mut Context<'_>) -> Poll<Result<()>> { loop { match self.0.flush() { Err(err) if err.kind() == ErrorKind::Interrupted => {} res => return Poll::Ready(res), } } } fn poll_close(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Result<()>> { self.poll_flush(cx) } } impl<T: std::io::Seek> AsyncSeek for AssertAsync<T> { fn poll_seek( mut self: Pin<&mut Self>, _: &mut Context<'_>, pos: SeekFrom, ) -> Poll<Result<u64>> { loop { match self.0.seek(pos) { Err(err) if err.kind() == ErrorKind::Interrupted => {} res => return Poll::Ready(res), } } } } /// Blocks on all async I/O operations and implements [`std::io`] traits. /// /// Sometimes async I/O needs to be used in a blocking manner. If calling [`future::block_on()`] /// manually all the time becomes too tedious, use this type for more convenient blocking on async /// I/O operations. /// /// This type implements traits [`Read`][`std::io::Read`], [`Write`][`std::io::Write`], or /// [`Seek`][`std::io::Seek`] if the inner type implements [`AsyncRead`], [`AsyncWrite`], or /// [`AsyncSeek`], respectively. /// /// If writing data through the [`Write`][`std::io::Write`] trait, make sure to flush before /// dropping the [`BlockOn`] handle or some buffered data might get lost. /// /// # Examples /// /// ``` /// use futures_lite::io::BlockOn; /// use futures_lite::pin; /// use std::io::Read; /// /// let reader: &[u8] = b"hello"; /// pin!(reader); /// /// let mut blocking_reader = BlockOn::new(reader); /// let mut contents = String::new(); /// /// // This line blocks - note that there is no await: /// blocking_reader.read_to_string(&mut contents)?; /// # std::io::Result::Ok(()) /// ``` #[derive(Debug)] pub struct BlockOn<T>(T); impl<T> BlockOn<T> { /// Wraps an async I/O handle into a blocking interface. /// /// # Examples /// /// ``` /// use futures_lite::io::BlockOn; /// use futures_lite::pin; /// /// let reader: &[u8] = b"hello"; /// pin!(reader); /// /// let blocking_reader = BlockOn::new(reader); /// ``` pub fn new(io: T) -> BlockOn<T> { BlockOn(io) } /// Gets a reference to the async I/O handle. /// /// # Examples /// /// ``` /// use futures_lite::io::BlockOn; /// use futures_lite::pin; /// /// let reader: &[u8] = b"hello"; /// pin!(reader); /// /// let blocking_reader = BlockOn::new(reader); /// let r = blocking_reader.get_ref(); /// ``` pub fn get_ref(&self) -> &T { &self.0 } /// Gets a mutable reference to the async I/O handle. /// /// # Examples /// /// ``` /// use futures_lite::io::BlockOn; /// use futures_lite::pin; /// /// let reader: &[u8] = b"hello"; /// pin!(reader); /// /// let mut blocking_reader = BlockOn::new(reader); /// let r = blocking_reader.get_mut(); /// ``` pub fn get_mut(&mut self) -> &mut T { &mut self.0 } /// Extracts the inner async I/O handle. /// /// # Examples /// /// ``` /// use futures_lite::io::BlockOn; /// use futures_lite::pin; /// /// let reader: &[u8] = b"hello"; /// pin!(reader); /// /// let blocking_reader = BlockOn::new(reader); /// let inner = blocking_reader.into_inner(); /// ``` pub fn into_inner(self) -> T { self.0 } } impl<T: AsyncRead + Unpin> std::io::Read for BlockOn<T> { fn read(&mut self, buf: &mut [u8]) -> Result<usize> { future::block_on(self.0.read(buf)) } } impl<T: AsyncWrite + Unpin> std::io::Write for BlockOn<T> { fn write(&mut self, buf: &[u8]) -> Result<usize> { future::block_on(self.0.write(buf)) } fn flush(&mut self) -> Result<()> { future::block_on(self.0.flush()) } } impl<T: AsyncSeek + Unpin> std::io::Seek for BlockOn<T> { fn seek(&mut self, pos: SeekFrom) -> Result<u64> { future::block_on(self.0.seek(pos)) } } pin_project! { /// Adds buffering to a reader. /// /// It can be excessively inefficient to work directly with an [`AsyncRead`] instance. A /// [`BufReader`] performs large, infrequent reads on the underlying [`AsyncRead`] and /// maintains an in-memory buffer of the incoming byte stream. /// /// [`BufReader`] can improve the speed of programs that make *small* and *repeated* reads to /// the same file or networking socket. It does not help when reading very large amounts at /// once, or reading just once or a few times. It also provides no advantage when reading from /// a source that is already in memory, like a `Vec<u8>`. /// /// When a [`BufReader`] is dropped, the contents of its buffer are discarded. Creating /// multiple instances of [`BufReader`] on the same reader can cause data loss. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncBufReadExt, BufReader}; /// /// # spin_on::spin_on(async { /// let input: &[u8] = b"hello"; /// let mut reader = BufReader::new(input); /// /// let mut line = String::new(); /// reader.read_line(&mut line).await?; /// # std::io::Result::Ok(()) }); /// ``` pub struct BufReader<R> { #[pin] inner: R, buf: Box<[u8]>, pos: usize, cap: usize, } } impl<R: AsyncRead> BufReader<R> { /// Creates a buffered reader with the default buffer capacity. /// /// The default capacity is currently 8 KB, but that may change in the future. /// /// # Examples /// /// ``` /// use futures_lite::io::BufReader; /// /// let input: &[u8] = b"hello"; /// let reader = BufReader::new(input); /// ``` pub fn new(inner: R) -> BufReader<R> { BufReader::with_capacity(DEFAULT_BUF_SIZE, inner) } /// Creates a buffered reader with the specified capacity. /// /// # Examples /// /// ``` /// use futures_lite::io::BufReader; /// /// let input: &[u8] = b"hello"; /// let reader = BufReader::with_capacity(1024, input); /// ``` pub fn with_capacity(capacity: usize, inner: R) -> BufReader<R> { BufReader { inner, buf: vec![0; capacity].into_boxed_slice(), pos: 0, cap: 0, } } } impl<R> BufReader<R> { /// Gets a reference to the underlying reader. /// /// It is not advisable to directly read from the underlying reader. /// /// # Examples /// /// ``` /// use futures_lite::io::BufReader; /// /// let input: &[u8] = b"hello"; /// let reader = BufReader::new(input); /// /// let r = reader.get_ref(); /// ``` pub fn get_ref(&self) -> &R { &self.inner } /// Gets a mutable reference to the underlying reader. /// /// It is not advisable to directly read from the underlying reader. /// /// # Examples /// /// ``` /// use futures_lite::io::BufReader; /// /// let input: &[u8] = b"hello"; /// let mut reader = BufReader::new(input); /// /// let r = reader.get_mut(); /// ``` pub fn get_mut(&mut self) -> &mut R { &mut self.inner } /// Gets a pinned mutable reference to the underlying reader. /// /// It is not advisable to directly read from the underlying reader. fn get_pin_mut(self: Pin<&mut Self>) -> Pin<&mut R> { self.project().inner } /// Returns a reference to the internal buffer. /// /// This method will not attempt to fill the buffer if it is empty. /// /// # Examples /// /// ``` /// use futures_lite::io::BufReader; /// /// let input: &[u8] = b"hello"; /// let reader = BufReader::new(input); /// /// // The internal buffer is empty until the first read request. /// assert_eq!(reader.buffer(), &[]); /// ``` pub fn buffer(&self) -> &[u8] { &self.buf[self.pos..self.cap] } /// Unwraps the buffered reader, returning the underlying reader. /// /// Note that any leftover data in the internal buffer will be lost. /// /// # Examples /// /// ``` /// use futures_lite::io::BufReader; /// /// let input: &[u8] = b"hello"; /// let reader = BufReader::new(input); /// /// assert_eq!(reader.into_inner(), input); /// ``` pub fn into_inner(self) -> R { self.inner } /// Invalidates all data in the internal buffer. #[inline] fn discard_buffer(self: Pin<&mut Self>) { let this = self.project(); *this.pos = 0; *this.cap = 0; } } impl<R: AsyncRead> AsyncRead for BufReader<R> { fn poll_read( mut self: Pin<&mut Self>, cx: &mut Context<'_>, buf: &mut [u8], ) -> Poll<Result<usize>> { // If we don't have any buffered data and we're doing a massive read // (larger than our internal buffer), bypass our internal buffer // entirely. if self.pos == self.cap && buf.len() >= self.buf.len() { let res = ready!(self.as_mut().get_pin_mut().poll_read(cx, buf)); self.discard_buffer(); return Poll::Ready(res); } let mut rem = ready!(self.as_mut().poll_fill_buf(cx))?; let nread = std::io::Read::read(&mut rem, buf)?; self.consume(nread); Poll::Ready(Ok(nread)) } fn poll_read_vectored( mut self: Pin<&mut Self>, cx: &mut Context<'_>, bufs: &mut [IoSliceMut<'_>], ) -> Poll<Result<usize>> { let total_len = bufs.iter().map(|b| b.len()).sum::<usize>(); if self.pos == self.cap && total_len >= self.buf.len() { let res = ready!(self.as_mut().get_pin_mut().poll_read_vectored(cx, bufs)); self.discard_buffer(); return Poll::Ready(res); } let mut rem = ready!(self.as_mut().poll_fill_buf(cx))?; let nread = std::io::Read::read_vectored(&mut rem, bufs)?; self.consume(nread); Poll::Ready(Ok(nread)) } } impl<R: AsyncRead> AsyncBufRead for BufReader<R> { fn poll_fill_buf<'a>(self: Pin<&'a mut Self>, cx: &mut Context<'_>) -> Poll<Result<&'a [u8]>> { let mut this = self.project(); // If we've reached the end of our internal buffer then we need to fetch // some more data from the underlying reader. // Branch using `>=` instead of the more correct `==` // to tell the compiler that the pos..cap slice is always valid. if *this.pos >= *this.cap { debug_assert!(*this.pos == *this.cap); *this.cap = ready!(this.inner.as_mut().poll_read(cx, this.buf))?; *this.pos = 0; } Poll::Ready(Ok(&this.buf[*this.pos..*this.cap])) } fn consume(self: Pin<&mut Self>, amt: usize) { let this = self.project(); *this.pos = cmp::min(*this.pos + amt, *this.cap); } } impl<R: AsyncRead + fmt::Debug> fmt::Debug for BufReader<R> { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.debug_struct("BufReader") .field("reader", &self.inner) .field( "buffer", &format_args!("{}/{}", self.cap - self.pos, self.buf.len()), ) .finish() } } impl<R: AsyncSeek> AsyncSeek for BufReader<R> { /// Seeks to an offset, in bytes, in the underlying reader. /// /// The position used for seeking with [`SeekFrom::Current`] is the position the underlying /// reader would be at if the [`BufReader`] had no internal buffer. /// /// Seeking always discards the internal buffer, even if the seek position would otherwise fall /// within it. This guarantees that calling [`into_inner()`][`BufReader::into_inner()`] /// immediately after a seek yields the underlying reader at the same position. /// /// See [`AsyncSeek`] for more details. /// /// Note: In the edge case where you're seeking with `SeekFrom::Current(n)` where `n` minus the /// internal buffer length overflows an `i64`, two seeks will be performed instead of one. If /// the second seek returns `Err`, the underlying reader will be left at the same position it /// would have if you called [`seek()`][`AsyncSeekExt::seek()`] with `SeekFrom::Current(0)`. fn poll_seek( mut self: Pin<&mut Self>, cx: &mut Context<'_>, pos: SeekFrom, ) -> Poll<Result<u64>> { let result: u64; if let SeekFrom::Current(n) = pos { let remainder = (self.cap - self.pos) as i64; // it should be safe to assume that remainder fits within an i64 as the alternative // means we managed to allocate 8 exbibytes and that's absurd. // But it's not out of the realm of possibility for some weird underlying reader to // support seeking by i64::min_value() so we need to handle underflow when subtracting // remainder. if let Some(offset) = n.checked_sub(remainder) { result = ready!(self .as_mut() .get_pin_mut() .poll_seek(cx, SeekFrom::Current(offset)))?; } else { // seek backwards by our remainder, and then by the offset ready!(self .as_mut() .get_pin_mut() .poll_seek(cx, SeekFrom::Current(-remainder)))?; self.as_mut().discard_buffer(); result = ready!(self .as_mut() .get_pin_mut() .poll_seek(cx, SeekFrom::Current(n)))?; } } else { // Seeking with Start/End doesn't care about our buffer length. result = ready!(self.as_mut().get_pin_mut().poll_seek(cx, pos))?; } self.discard_buffer(); Poll::Ready(Ok(result)) } } pin_project! { /// Adds buffering to a writer. /// /// It can be excessively inefficient to work directly with something that implements /// [`AsyncWrite`]. For example, every call to [`write()`][`AsyncWriteExt::write()`] on a TCP /// stream results in a system call. A [`BufWriter`] keeps an in-memory buffer of data and /// writes it to the underlying writer in large, infrequent batches. /// /// [`BufWriter`] can improve the speed of programs that make *small* and *repeated* writes to /// the same file or networking socket. It does not help when writing very large amounts at /// once, or writing just once or a few times. It also provides no advantage when writing to a /// destination that is in memory, like a `Vec<u8>`. /// /// Unlike [`std::io::BufWriter`], this type does not write out the contents of its buffer when /// it is dropped. Therefore, it is important that users explicitly flush the buffer before /// dropping the [`BufWriter`]. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncWriteExt, BufWriter}; /// /// # spin_on::spin_on(async { /// let mut output = Vec::new(); /// let mut writer = BufWriter::new(&mut output); /// /// writer.write_all(b"hello").await?; /// writer.flush().await?; /// # std::io::Result::Ok(()) }); /// ``` pub struct BufWriter<W> { #[pin] inner: W, buf: Vec<u8>, written: usize, } } impl<W: AsyncWrite> BufWriter<W> { /// Creates a buffered writer with the default buffer capacity. /// /// The default capacity is currently 8 KB, but that may change in the future. /// /// # Examples /// /// ``` /// use futures_lite::io::BufWriter; /// /// let mut output = Vec::new(); /// let writer = BufWriter::new(&mut output); /// ``` pub fn new(inner: W) -> BufWriter<W> { BufWriter::with_capacity(DEFAULT_BUF_SIZE, inner) } /// Creates a buffered writer with the specified buffer capacity. /// /// # Examples /// /// ``` /// use futures_lite::io::BufWriter; /// /// let mut output = Vec::new(); /// let writer = BufWriter::with_capacity(100, &mut output); /// ``` pub fn with_capacity(capacity: usize, inner: W) -> BufWriter<W> { BufWriter { inner, buf: Vec::with_capacity(capacity), written: 0, } } /// Gets a reference to the underlying writer. /// /// # Examples /// /// ``` /// use futures_lite::io::BufWriter; /// /// let mut output = Vec::new(); /// let writer = BufWriter::new(&mut output); /// /// let r = writer.get_ref(); /// ``` pub fn get_ref(&self) -> &W { &self.inner } /// Gets a mutable reference to the underlying writer. /// /// It is not advisable to directly write to the underlying writer. /// /// # Examples /// /// ``` /// use futures_lite::io::BufWriter; /// /// let mut output = Vec::new(); /// let mut writer = BufWriter::new(&mut output); /// /// let r = writer.get_mut(); /// ``` pub fn get_mut(&mut self) -> &mut W { &mut self.inner } /// Gets a pinned mutable reference to the underlying writer. /// /// It is not not advisable to directly write to the underlying writer. fn get_pin_mut(self: Pin<&mut Self>) -> Pin<&mut W> { self.project().inner } /// Unwraps the buffered writer, returning the underlying writer. /// /// Note that any leftover data in the internal buffer will be lost. If you don't want to lose /// that data, flush the buffered writer before unwrapping it. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncWriteExt, BufWriter}; /// /// # spin_on::spin_on(async { /// let mut output = vec![1, 2, 3]; /// let mut writer = BufWriter::new(&mut output); /// /// writer.write_all(&[4]).await?; /// writer.flush().await?; /// assert_eq!(writer.into_inner(), &[1, 2, 3, 4]); /// # std::io::Result::Ok(()) }); /// ``` pub fn into_inner(self) -> W { self.inner } /// Returns a reference to the internal buffer. /// /// # Examples /// /// ``` /// use futures_lite::io::BufWriter; /// /// let mut output = Vec::new(); /// let writer = BufWriter::new(&mut output); /// /// // The internal buffer is empty until the first write request. /// assert_eq!(writer.buffer(), &[]); /// ``` pub fn buffer(&self) -> &[u8] { &self.buf } /// Flush the buffer. fn poll_flush_buf(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Result<()>> { let mut this = self.project(); let len = this.buf.len(); let mut ret = Ok(()); while *this.written < len { match this .inner .as_mut() .poll_write(cx, &this.buf[*this.written..]) { Poll::Ready(Ok(0)) => { ret = Err(Error::new( ErrorKind::WriteZero, "Failed to write buffered data", )); break; } Poll::Ready(Ok(n)) => *this.written += n, Poll::Ready(Err(ref e)) if e.kind() == ErrorKind::Interrupted => {} Poll::Ready(Err(e)) => { ret = Err(e); break; } Poll::Pending => return Poll::Pending, } } if *this.written > 0 { this.buf.drain(..*this.written); } *this.written = 0; Poll::Ready(ret) } } impl<W: AsyncWrite + fmt::Debug> fmt::Debug for BufWriter<W> { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.debug_struct("BufWriter") .field("writer", &self.inner) .field("buf", &self.buf) .finish() } } impl<W: AsyncWrite> AsyncWrite for BufWriter<W> { fn poll_write( mut self: Pin<&mut Self>, cx: &mut Context<'_>, buf: &[u8], ) -> Poll<Result<usize>> { if self.buf.len() + buf.len() > self.buf.capacity() { ready!(self.as_mut().poll_flush_buf(cx))?; } if buf.len() >= self.buf.capacity() { self.get_pin_mut().poll_write(cx, buf) } else { Pin::new(&mut *self.project().buf).poll_write(cx, buf) } } fn poll_flush(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Result<()>> { ready!(self.as_mut().poll_flush_buf(cx))?; self.get_pin_mut().poll_flush(cx) } fn poll_close(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Result<()>> { ready!(self.as_mut().poll_flush_buf(cx))?; self.get_pin_mut().poll_close(cx) } } impl<W: AsyncWrite + AsyncSeek> AsyncSeek for BufWriter<W> { /// Seek to the offset, in bytes, in the underlying writer. /// /// Seeking always writes out the internal buffer before seeking. fn poll_seek( mut self: Pin<&mut Self>, cx: &mut Context<'_>, pos: SeekFrom, ) -> Poll<Result<u64>> { ready!(self.as_mut().poll_flush_buf(cx))?; self.get_pin_mut().poll_seek(cx, pos) } } /// Gives an in-memory buffer a cursor for reading and writing. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncReadExt, AsyncSeekExt, AsyncWriteExt, Cursor, SeekFrom}; /// /// # spin_on::spin_on(async { /// let mut bytes = b"hello".to_vec(); /// let mut cursor = Cursor::new(&mut bytes); /// /// // Overwrite 'h' with 'H'. /// cursor.write_all(b"H").await?; /// /// // Move the cursor one byte forward. /// cursor.seek(SeekFrom::Current(1)).await?; /// /// // Read a byte. /// let mut byte = [0]; /// cursor.read_exact(&mut byte).await?; /// assert_eq!(&byte, b"l"); /// /// // Check the final buffer. /// assert_eq!(bytes, b"Hello"); /// # std::io::Result::Ok(()) }); /// ``` #[derive(Clone, Debug, Default)] pub struct Cursor<T> { inner: std::io::Cursor<T>, } impl<T> Cursor<T> { /// Creates a cursor for an in-memory buffer. /// /// Cursor's initial position is 0 even if the underlying buffer is not empty. Writing using /// [`Cursor`] will overwrite the existing contents unless the cursor is moved to the end of /// the buffer using [`set_position()`][Cursor::set_position()`] or /// [`seek()`][`AsyncSeekExt::seek()`]. /// /// # Examples /// /// ``` /// use futures_lite::io::Cursor; /// /// let cursor = Cursor::new(Vec::<u8>::new()); /// ``` pub fn new(inner: T) -> Cursor<T> { Cursor { inner: std::io::Cursor::new(inner), } } /// Gets a reference to the underlying buffer. /// /// # Examples /// /// ``` /// use futures_lite::io::Cursor; /// /// let cursor = Cursor::new(Vec::<u8>::new()); /// let r = cursor.get_ref(); /// ``` pub fn get_ref(&self) -> &T { self.inner.get_ref() } /// Gets a mutable reference to the underlying buffer. /// /// # Examples /// /// ``` /// use futures_lite::io::Cursor; /// /// let mut cursor = Cursor::new(Vec::<u8>::new()); /// let r = cursor.get_mut(); /// ``` pub fn get_mut(&mut self) -> &mut T { self.inner.get_mut() } /// Unwraps the cursor, returning the underlying buffer. /// /// # Examples /// /// ``` /// use futures_lite::io::Cursor; /// /// let cursor = Cursor::new(vec![1, 2, 3]); /// assert_eq!(cursor.into_inner(), [1, 2, 3]); /// ``` pub fn into_inner(self) -> T { self.inner.into_inner() } /// Returns the current position of this cursor. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncSeekExt, Cursor, SeekFrom}; /// /// # spin_on::spin_on(async { /// let mut cursor = Cursor::new(b"hello"); /// assert_eq!(cursor.position(), 0); /// /// cursor.seek(SeekFrom::Start(2)).await?; /// assert_eq!(cursor.position(), 2); /// # std::io::Result::Ok(()) }); /// ``` pub fn position(&self) -> u64 { self.inner.position() } /// Sets the position of this cursor. /// /// # Examples /// /// ``` /// use futures_lite::io::Cursor; /// /// let mut cursor = Cursor::new(b"hello"); /// assert_eq!(cursor.position(), 0); /// /// cursor.set_position(2); /// assert_eq!(cursor.position(), 2); /// ``` pub fn set_position(&mut self, pos: u64) { self.inner.set_position(pos) } } impl<T> AsyncSeek for Cursor<T> where T: AsRef<[u8]> + Unpin, { fn poll_seek( mut self: Pin<&mut Self>, _: &mut Context<'_>, pos: SeekFrom, ) -> Poll<Result<u64>> { Poll::Ready(std::io::Seek::seek(&mut self.inner, pos)) } } impl<T> AsyncRead for Cursor<T> where T: AsRef<[u8]> + Unpin, { fn poll_read( mut self: Pin<&mut Self>, _cx: &mut Context<'_>, buf: &mut [u8], ) -> Poll<Result<usize>> { Poll::Ready(std::io::Read::read(&mut self.inner, buf)) } fn poll_read_vectored( mut self: Pin<&mut Self>, _: &mut Context<'_>, bufs: &mut [IoSliceMut<'_>], ) -> Poll<Result<usize>> { Poll::Ready(std::io::Read::read_vectored(&mut self.inner, bufs)) } } impl<T> AsyncBufRead for Cursor<T> where T: AsRef<[u8]> + Unpin, { fn poll_fill_buf(self: Pin<&mut Self>, _: &mut Context<'_>) -> Poll<Result<&[u8]>> { Poll::Ready(std::io::BufRead::fill_buf(&mut self.get_mut().inner)) } fn consume(mut self: Pin<&mut Self>, amt: usize) { std::io::BufRead::consume(&mut self.inner, amt) } } impl AsyncWrite for Cursor<&mut [u8]> { fn poll_write( mut self: Pin<&mut Self>, _: &mut Context<'_>, buf: &[u8], ) -> Poll<Result<usize>> { Poll::Ready(std::io::Write::write(&mut self.inner, buf)) } fn poll_write_vectored( mut self: Pin<&mut Self>, _: &mut Context<'_>, bufs: &[IoSlice<'_>], ) -> Poll<Result<usize>> { Poll::Ready(std::io::Write::write_vectored(&mut self.inner, bufs)) } fn poll_flush(mut self: Pin<&mut Self>, _: &mut Context<'_>) -> Poll<Result<()>> { Poll::Ready(std::io::Write::flush(&mut self.inner)) } fn poll_close(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Result<()>> { self.poll_flush(cx) } } impl AsyncWrite for Cursor<&mut Vec<u8>> { fn poll_write( mut self: Pin<&mut Self>, _: &mut Context<'_>, buf: &[u8], ) -> Poll<Result<usize>> { Poll::Ready(std::io::Write::write(&mut self.inner, buf)) } fn poll_close(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Result<()>> { self.poll_flush(cx) } fn poll_flush(mut self: Pin<&mut Self>, _: &mut Context<'_>) -> Poll<Result<()>> { Poll::Ready(std::io::Write::flush(&mut self.inner)) } } impl AsyncWrite for Cursor<Vec<u8>> { fn poll_write( mut self: Pin<&mut Self>, _: &mut Context<'_>, buf: &[u8], ) -> Poll<Result<usize>> { Poll::Ready(std::io::Write::write(&mut self.inner, buf)) } fn poll_close(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Result<()>> { self.poll_flush(cx) } fn poll_flush(mut self: Pin<&mut Self>, _: &mut Context<'_>) -> Poll<Result<()>> { Poll::Ready(std::io::Write::flush(&mut self.inner)) } } /// Creates an empty reader. /// /// # Examples /// /// ``` /// use futures_lite::io::{self, AsyncReadExt}; /// /// # spin_on::spin_on(async { /// let mut reader = io::empty(); /// /// let mut contents = Vec::new(); /// reader.read_to_end(&mut contents).await?; /// assert!(contents.is_empty()); /// # std::io::Result::Ok(()) }); /// ``` pub fn empty() -> Empty { Empty { _private: () } } /// Reader for the [`empty()`] function. pub struct Empty { _private: (), } impl fmt::Debug for Empty { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.pad("Empty { .. }") } } impl AsyncRead for Empty { #[inline] fn poll_read(self: Pin<&mut Self>, _: &mut Context<'_>, _: &mut [u8]) -> Poll<Result<usize>> { Poll::Ready(Ok(0)) } } impl AsyncBufRead for Empty { #[inline] fn poll_fill_buf<'a>(self: Pin<&'a mut Self>, _: &mut Context<'_>) -> Poll<Result<&'a [u8]>> { Poll::Ready(Ok(&[])) } #[inline] fn consume(self: Pin<&mut Self>, _: usize) {} } /// Creates an infinite reader that reads the same byte repeatedly. /// /// # Examples /// /// ``` /// use futures_lite::io::{self, AsyncReadExt}; /// /// # spin_on::spin_on(async { /// let mut reader = io::repeat(b'a'); /// /// let mut contents = vec![0; 5]; /// reader.read_exact(&mut contents).await?; /// assert_eq!(contents, b"aaaaa"); /// # std::io::Result::Ok(()) }); /// ``` pub fn repeat(byte: u8) -> Repeat { Repeat { byte } } /// Reader for the [`repeat()`] function. #[derive(Debug)] pub struct Repeat { byte: u8, } impl AsyncRead for Repeat { #[inline] fn poll_read(self: Pin<&mut Self>, _: &mut Context<'_>, buf: &mut [u8]) -> Poll<Result<usize>> { for b in &mut *buf { *b = self.byte; } Poll::Ready(Ok(buf.len())) } } /// Creates a writer that consumes and drops all data. /// /// # Examples /// /// ``` /// use futures_lite::io::{self, AsyncWriteExt}; /// /// # spin_on::spin_on(async { /// let mut writer = io::sink(); /// writer.write_all(b"hello").await?; /// # std::io::Result::Ok(()) }); /// ``` pub fn sink() -> Sink { Sink { _private: () } } /// Writer for the [`sink()`] function. #[derive(Debug)] pub struct Sink { _private: (), } impl AsyncWrite for Sink { #[inline] fn poll_write(self: Pin<&mut Self>, _: &mut Context<'_>, buf: &[u8]) -> Poll<Result<usize>> { Poll::Ready(Ok(buf.len())) } #[inline] fn poll_flush(self: Pin<&mut Self>, _: &mut Context<'_>) -> Poll<Result<()>> { Poll::Ready(Ok(())) } #[inline] fn poll_close(self: Pin<&mut Self>, _: &mut Context<'_>) -> Poll<Result<()>> { Poll::Ready(Ok(())) } } /// Extension trait for [`AsyncBufRead`]. pub trait AsyncBufReadExt: AsyncBufRead { /// Returns the contents of the internal buffer, filling it with more data if empty. /// /// If the stream has reached EOF, an empty buffer will be returned. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncBufReadExt, BufReader}; /// use std::pin::Pin; /// /// # spin_on::spin_on(async { /// let input: &[u8] = b"hello world"; /// let mut reader = BufReader::with_capacity(5, input); /// /// assert_eq!(reader.fill_buf().await?, b"hello"); /// reader.consume(2); /// assert_eq!(reader.fill_buf().await?, b"llo"); /// reader.consume(3); /// assert_eq!(reader.fill_buf().await?, b" worl"); /// # std::io::Result::Ok(()) }); /// ``` fn fill_buf(&mut self) -> FillBuf<'_, Self> where Self: Unpin, { FillBuf { reader: Some(self) } } /// Consumes `amt` buffered bytes. /// /// This method does not perform any I/O, it simply consumes some amount of bytes from the /// internal buffer. /// /// The `amt` must be <= the number of bytes in the buffer returned by /// [`fill_buf()`][`AsyncBufReadExt::fill_buf()`]. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncBufReadExt, BufReader}; /// use std::pin::Pin; /// /// # spin_on::spin_on(async { /// let input: &[u8] = b"hello"; /// let mut reader = BufReader::with_capacity(4, input); /// /// assert_eq!(reader.fill_buf().await?, b"hell"); /// reader.consume(2); /// assert_eq!(reader.fill_buf().await?, b"ll"); /// # std::io::Result::Ok(()) }); /// ``` fn consume(&mut self, amt: usize) where Self: Unpin, { AsyncBufRead::consume(Pin::new(self), amt); } /// Reads all bytes and appends them into `buf` until the delimiter `byte` or EOF is found. /// /// This method will read bytes from the underlying stream until the delimiter or EOF is /// found. All bytes up to and including the delimiter (if found) will be appended to `buf`. /// /// If successful, returns the total number of bytes read. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncBufReadExt, BufReader}; /// /// # spin_on::spin_on(async { /// let input: &[u8] = b"hello"; /// let mut reader = BufReader::new(input); /// /// let mut buf = Vec::new(); /// let n = reader.read_until(b'\n', &mut buf).await?; /// # std::io::Result::Ok(()) }); /// ``` fn read_until<'a>(&'a mut self, byte: u8, buf: &'a mut Vec<u8>) -> ReadUntilFuture<'_, Self> where Self: Unpin, { ReadUntilFuture { reader: self, byte, buf, read: 0, } } /// Reads all bytes and appends them into `buf` until a newline (the 0xA byte) or EOF is found. /// /// This method will read bytes from the underlying stream until the newline delimiter (the /// 0xA byte) or EOF is found. All bytes up to, and including, the newline delimiter (if found) /// will be appended to `buf`. /// /// If successful, returns the total number of bytes read. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncBufReadExt, BufReader}; /// /// # spin_on::spin_on(async { /// let input: &[u8] = b"hello"; /// let mut reader = BufReader::new(input); /// /// let mut line = String::new(); /// let n = reader.read_line(&mut line).await?; /// # std::io::Result::Ok(()) }); /// ``` fn read_line<'a>(&'a mut self, buf: &'a mut String) -> ReadLineFuture<'_, Self> where Self: Unpin, { ReadLineFuture { reader: self, buf, bytes: Vec::new(), read: 0, } } /// Returns a stream over the lines of this byte stream. /// /// The stream returned from this method yields items of type /// [`io::Result`][`super::io::Result`]`<`[`String`]`>`. /// Each string returned will *not* have a newline byte (the 0xA byte) or CRLF (0xD, 0xA bytes) /// at the end. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncBufReadExt, BufReader}; /// use futures_lite::stream::StreamExt; /// /// # spin_on::spin_on(async { /// let input: &[u8] = b"hello\nworld\n"; /// let mut reader = BufReader::new(input); /// let mut lines = reader.lines(); /// /// let mut line = String::new(); /// while let Some(line) = lines.next().await { /// println!("{}", line?); /// } /// # std::io::Result::Ok(()) }); /// ``` fn lines(self) -> Lines<Self> where Self: Unpin + Sized, { Lines { reader: self, buf: String::new(), bytes: Vec::new(), read: 0, } } /// Returns a stream over the contents of this reader split on the specified `byte`. /// /// The stream returned from this method yields items of type /// [`io::Result`][`super::io::Result`]`<`[`Vec<u8>`][`Vec`]`>`. /// Each vector returned will *not* have the delimiter byte at the end. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncBufReadExt, Cursor}; /// use futures_lite::stream::StreamExt; /// /// # spin_on::spin_on(async { /// let cursor = Cursor::new(b"lorem-ipsum-dolor"); /// let items: Vec<Vec<u8>> = cursor.split(b'-').try_collect().await?; /// /// assert_eq!(items[0], b"lorem"); /// assert_eq!(items[1], b"ipsum"); /// assert_eq!(items[2], b"dolor"); /// # std::io::Result::Ok(()) }); /// ``` fn split(self, byte: u8) -> Split<Self> where Self: Sized, { Split { reader: self, buf: Vec::new(), delim: byte, read: 0, } } } impl<R: AsyncBufRead + ?Sized> AsyncBufReadExt for R {} /// Future for the [`AsyncBufReadExt::fill_buf()`] method. #[derive(Debug)] #[must_use = "futures do nothing unless you `.await` or poll them"] pub struct FillBuf<'a, R: ?Sized> { reader: Option<&'a mut R>, } impl<R: ?Sized> Unpin for FillBuf<'_, R> {} impl<'a, R> Future for FillBuf<'a, R> where R: AsyncBufRead + Unpin + ?Sized, { type Output = Result<&'a [u8]>; fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> { let this = &mut *self; let reader = this .reader .take() .expect("polled `FillBuf` after completion"); match Pin::new(&mut *reader).poll_fill_buf(cx) { Poll::Ready(Ok(_)) => match Pin::new(reader).poll_fill_buf(cx) { Poll::Ready(Ok(slice)) => Poll::Ready(Ok(slice)), poll => panic!("`poll_fill_buf()` was ready but now it isn't: {:?}", poll), }, Poll::Ready(Err(err)) => Poll::Ready(Err(err)), Poll::Pending => { this.reader = Some(reader); Poll::Pending } } } } /// Future for the [`AsyncBufReadExt::read_until()`] method. #[derive(Debug)] #[must_use = "futures do nothing unless you `.await` or poll them"] pub struct ReadUntilFuture<'a, R: Unpin + ?Sized> { reader: &'a mut R, byte: u8, buf: &'a mut Vec<u8>, read: usize, } impl<R: Unpin + ?Sized> Unpin for ReadUntilFuture<'_, R> {} impl<R: AsyncBufRead + Unpin + ?Sized> Future for ReadUntilFuture<'_, R> { type Output = Result<usize>; fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> { let Self { reader, byte, buf, read, } = &mut *self; read_until_internal(Pin::new(reader), cx, *byte, buf, read) } } fn read_until_internal<R: AsyncBufReadExt + ?Sized>( mut reader: Pin<&mut R>, cx: &mut Context<'_>, byte: u8, buf: &mut Vec<u8>, read: &mut usize, ) -> Poll<Result<usize>> { loop { let (done, used) = { let available = ready!(reader.as_mut().poll_fill_buf(cx))?; if let Some(i) = memchr::memchr(byte, available) { buf.extend_from_slice(&available[..=i]); (true, i + 1) } else { buf.extend_from_slice(available); (false, available.len()) } }; reader.as_mut().consume(used); *read += used; if done || used == 0 { return Poll::Ready(Ok(mem::replace(read, 0))); } } } /// Future for the [`AsyncBufReadExt::read_line()`] method. #[derive(Debug)] #[must_use = "futures do nothing unless you `.await` or poll them"] pub struct ReadLineFuture<'a, R: Unpin + ?Sized> { reader: &'a mut R, buf: &'a mut String, bytes: Vec<u8>, read: usize, } impl<R: Unpin + ?Sized> Unpin for ReadLineFuture<'_, R> {} impl<R: AsyncBufRead + Unpin + ?Sized> Future for ReadLineFuture<'_, R> { type Output = Result<usize>; fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> { let Self { reader, buf, bytes, read, } = &mut *self; read_line_internal(Pin::new(reader), cx, buf, bytes, read) } } pin_project! { /// Stream for the [`AsyncBufReadExt::lines()`] method. #[derive(Debug)] #[must_use = "streams do nothing unless polled"] pub struct Lines<R> { #[pin] reader: R, buf: String, bytes: Vec<u8>, read: usize, } } impl<R: AsyncBufRead> Stream for Lines<R> { type Item = Result<String>; fn poll_next(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Option<Self::Item>> { let this = self.project(); let n = ready!(read_line_internal( this.reader, cx, this.buf, this.bytes, this.read ))?; if n == 0 && this.buf.is_empty() { return Poll::Ready(None); } if this.buf.ends_with('\n') { this.buf.pop(); if this.buf.ends_with('\r') { this.buf.pop(); } } Poll::Ready(Some(Ok(mem::replace(this.buf, String::new())))) } } fn read_line_internal<R: AsyncBufRead + ?Sized>( reader: Pin<&mut R>, cx: &mut Context<'_>, buf: &mut String, bytes: &mut Vec<u8>, read: &mut usize, ) -> Poll<Result<usize>> { let ret = ready!(read_until_internal(reader, cx, b'\n', bytes, read)); match String::from_utf8(mem::replace(bytes, Vec::new())) { Ok(s) => { debug_assert!(buf.is_empty()); debug_assert_eq!(*read, 0); *buf = s; Poll::Ready(ret) } Err(_) => Poll::Ready(ret.and_then(|_| { Err(Error::new( ErrorKind::InvalidData, "stream did not contain valid UTF-8", )) })), } } pin_project! { /// Stream for the [`AsyncBufReadExt::split()`] method. #[derive(Debug)] #[must_use = "streams do nothing unless polled"] pub struct Split<R> { #[pin] reader: R, buf: Vec<u8>, read: usize, delim: u8, } } impl<R: AsyncBufRead> Stream for Split<R> { type Item = Result<Vec<u8>>; fn poll_next(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Option<Self::Item>> { let this = self.project(); let n = ready!(read_until_internal( this.reader, cx, *this.delim, this.buf, this.read ))?; if n == 0 && this.buf.is_empty() { return Poll::Ready(None); } if this.buf[this.buf.len() - 1] == *this.delim { this.buf.pop(); } Poll::Ready(Some(Ok(mem::replace(this.buf, vec![])))) } } /// Extension trait for [`AsyncRead`]. pub trait AsyncReadExt: AsyncRead { /// Reads some bytes from the byte stream. /// /// On success, returns the total number of bytes read. /// /// If the return value is `Ok(n)`, then it must be guaranteed that /// `0 <= n <= buf.len()`. A nonzero `n` value indicates that the buffer has been /// filled with `n` bytes of data. If `n` is `0`, then it can indicate one of two /// scenarios: /// /// 1. This reader has reached its "end of file" and will likely no longer be able to /// produce bytes. Note that this does not mean that the reader will always no /// longer be able to produce bytes. /// 2. The buffer specified was 0 bytes in length. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncReadExt, BufReader}; /// /// # spin_on::spin_on(async { /// let input: &[u8] = b"hello"; /// let mut reader = BufReader::new(input); /// /// let mut buf = vec![0; 1024]; /// let n = reader.read(&mut buf).await?; /// # std::io::Result::Ok(()) }); /// ``` fn read<'a>(&'a mut self, buf: &'a mut [u8]) -> ReadFuture<'a, Self> where Self: Unpin, { ReadFuture { reader: self, buf } } /// Like [`read()`][`AsyncReadExt::read()`], except it reads into a slice of buffers. /// /// Data is copied to fill each buffer in order, with the final buffer possibly being /// only partially filled. This method must behave same as a single call to /// [`read()`][`AsyncReadExt::read()`] with the buffers concatenated would. fn read_vectored<'a>( &'a mut self, bufs: &'a mut [IoSliceMut<'a>], ) -> ReadVectoredFuture<'a, Self> where Self: Unpin, { ReadVectoredFuture { reader: self, bufs } } /// Reads the entire contents and appends them to a [`Vec`]. /// /// On success, returns the total number of bytes read. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncReadExt, Cursor}; /// /// # spin_on::spin_on(async { /// let mut reader = Cursor::new(vec![1, 2, 3]); /// let mut contents = Vec::new(); /// /// let n = reader.read_to_end(&mut contents).await?; /// assert_eq!(n, 3); /// assert_eq!(contents, [1, 2, 3]); /// # std::io::Result::Ok(()) }); /// ``` fn read_to_end<'a>(&'a mut self, buf: &'a mut Vec<u8>) -> ReadToEndFuture<'a, Self> where Self: Unpin, { let start_len = buf.len(); ReadToEndFuture { reader: self, buf, start_len, } } /// Reads the entire contents and appends them to a [`String`]. /// /// On success, returns the total number of bytes read. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncReadExt, Cursor}; /// /// # spin_on::spin_on(async { /// let mut reader = Cursor::new(&b"hello"); /// let mut contents = String::new(); /// /// let n = reader.read_to_string(&mut contents).await?; /// assert_eq!(n, 5); /// assert_eq!(contents, "hello"); /// # std::io::Result::Ok(()) }); /// ``` fn read_to_string<'a>(&'a mut self, buf: &'a mut String) -> ReadToStringFuture<'a, Self> where Self: Unpin, { ReadToStringFuture { reader: self, buf, bytes: Vec::new(), start_len: 0, } } /// Reads the exact number of bytes required to fill `buf`. /// /// On success, returns the total number of bytes read. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncReadExt, Cursor}; /// /// # spin_on::spin_on(async { /// let mut reader = Cursor::new(&b"hello"); /// let mut contents = vec![0; 3]; /// /// reader.read_exact(&mut contents).await?; /// assert_eq!(contents, b"hel"); /// # std::io::Result::Ok(()) }); /// ``` fn read_exact<'a>(&'a mut self, buf: &'a mut [u8]) -> ReadExactFuture<'a, Self> where Self: Unpin, { ReadExactFuture { reader: self, buf } } /// Creates an adapter which will read at most `limit` bytes from it. /// /// This method returns a new instance of [`AsyncRead`] which will read at most /// `limit` bytes, after which it will always return `Ok(0)` indicating EOF. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncReadExt, Cursor}; /// /// # spin_on::spin_on(async { /// let mut reader = Cursor::new(&b"hello"); /// let mut contents = String::new(); /// /// let n = reader.take(3).read_to_string(&mut contents).await?; /// assert_eq!(n, 3); /// assert_eq!(contents, "hel"); /// # std::io::Result::Ok(()) }); /// ``` fn take(self, limit: u64) -> Take<Self> where Self: Sized, { Take { inner: self, limit } } /// Converts this [`AsyncRead`] into a [`Stream`] of bytes. /// /// The returned type implements [`Stream`] where `Item` is `io::Result<u8>`. /// /// ``` /// use futures_lite::io::{AsyncReadExt, Cursor}; /// use futures_lite::stream::StreamExt; /// /// # spin_on::spin_on(async { /// let reader = Cursor::new(&b"hello"); /// let mut bytes = reader.bytes(); /// /// while let Some(byte) = bytes.next().await { /// println!("byte: {}", byte?); /// } /// # std::io::Result::Ok(()) }); /// ``` fn bytes(self) -> Bytes<Self> where Self: Sized, { Bytes { inner: self } } /// Creates an adapter which will chain this stream with another. /// /// The returned [`AsyncRead`] instance will first read all bytes from this reader /// until EOF is found, and then continue with `next`. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncReadExt, Cursor}; /// /// # spin_on::spin_on(async { /// let r1 = Cursor::new(&b"hello"); /// let r2 = Cursor::new(&b"world"); /// let mut reader = r1.chain(r2); /// /// let mut contents = String::new(); /// reader.read_to_string(&mut contents).await?; /// assert_eq!(contents, "helloworld"); /// # std::io::Result::Ok(()) }); /// ``` fn chain<R: AsyncRead>(self, next: R) -> Chain<Self, R> where Self: Sized, { Chain { first: self, second: next, done_first: false, } } /// Boxes the reader and changes its type to `dyn AsyncRead + Send + 'a`. /// /// # Examples /// /// ``` /// use futures_lite::io::AsyncReadExt; /// /// let reader = [1, 2, 3].boxed_reader(); /// ``` #[cfg(feature = "alloc")] fn boxed_reader<'a>(self) -> Pin<Box<dyn AsyncRead + Send + 'a>> where Self: Sized + Send + 'a, { Box::pin(self) } } impl<R: AsyncRead + ?Sized> AsyncReadExt for R {} /// Future for the [`AsyncReadExt::read()`] method. #[derive(Debug)] #[must_use = "futures do nothing unless you `.await` or poll them"] pub struct ReadFuture<'a, R: Unpin + ?Sized> { reader: &'a mut R, buf: &'a mut [u8], } impl<R: Unpin + ?Sized> Unpin for ReadFuture<'_, R> {} impl<R: AsyncRead + Unpin + ?Sized> Future for ReadFuture<'_, R> { type Output = Result<usize>; fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> { let Self { reader, buf } = &mut *self; Pin::new(reader).poll_read(cx, buf) } } /// Future for the [`AsyncReadExt::read_vectored()`] method. #[derive(Debug)] #[must_use = "futures do nothing unless you `.await` or poll them"] pub struct ReadVectoredFuture<'a, R: Unpin + ?Sized> { reader: &'a mut R, bufs: &'a mut [IoSliceMut<'a>], } impl<R: Unpin + ?Sized> Unpin for ReadVectoredFuture<'_, R> {} impl<R: AsyncRead + Unpin + ?Sized> Future for ReadVectoredFuture<'_, R> { type Output = Result<usize>; fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> { let Self { reader, bufs } = &mut *self; Pin::new(reader).poll_read_vectored(cx, bufs) } } /// Future for the [`AsyncReadExt::read_to_end()`] method. #[derive(Debug)] #[must_use = "futures do nothing unless you `.await` or poll them"] pub struct ReadToEndFuture<'a, R: Unpin + ?Sized> { reader: &'a mut R, buf: &'a mut Vec<u8>, start_len: usize, } impl<R: Unpin + ?Sized> Unpin for ReadToEndFuture<'_, R> {} impl<R: AsyncRead + Unpin + ?Sized> Future for ReadToEndFuture<'_, R> { type Output = Result<usize>; fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> { let Self { reader, buf, start_len, } = &mut *self; read_to_end_internal(Pin::new(reader), cx, buf, *start_len) } } /// Future for the [`AsyncReadExt::read_to_string()`] method. #[derive(Debug)] #[must_use = "futures do nothing unless you `.await` or poll them"] pub struct ReadToStringFuture<'a, R: Unpin + ?Sized> { reader: &'a mut R, buf: &'a mut String, bytes: Vec<u8>, start_len: usize, } impl<R: Unpin + ?Sized> Unpin for ReadToStringFuture<'_, R> {} impl<R: AsyncRead + Unpin + ?Sized> Future for ReadToStringFuture<'_, R> { type Output = Result<usize>; fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> { let Self { reader, buf, bytes, start_len, } = &mut *self; let reader = Pin::new(reader); let ret = ready!(read_to_end_internal(reader, cx, bytes, *start_len)); match String::from_utf8(mem::replace(bytes, Vec::new())) { Ok(s) => { debug_assert!(buf.is_empty()); **buf = s; Poll::Ready(ret) } Err(_) => Poll::Ready(ret.and_then(|_| { Err(Error::new( ErrorKind::InvalidData, "stream did not contain valid UTF-8", )) })), } } } // This uses an adaptive system to extend the vector when it fills. We want to // avoid paying to allocate and zero a huge chunk of memory if the reader only // has 4 bytes while still making large reads if the reader does have a ton // of data to return. Simply tacking on an extra DEFAULT_BUF_SIZE space every // time is 4,500 times (!) slower than this if the reader has a very small // amount of data to return. // // Because we're extending the buffer with uninitialized data for trusted // readers, we need to make sure to truncate that if any of this panics. fn read_to_end_internal<R: AsyncRead + ?Sized>( mut rd: Pin<&mut R>, cx: &mut Context<'_>, buf: &mut Vec<u8>, start_len: usize, ) -> Poll<Result<usize>> { struct Guard<'a> { buf: &'a mut Vec<u8>, len: usize, } impl Drop for Guard<'_> { fn drop(&mut self) { self.buf.resize(self.len, 0); } } let mut g = Guard { len: buf.len(), buf, }; let ret; loop { if g.len == g.buf.len() { g.buf.reserve(32); let capacity = g.buf.capacity(); g.buf.resize(capacity, 0); } match ready!(rd.as_mut().poll_read(cx, &mut g.buf[g.len..])) { Ok(0) => { ret = Poll::Ready(Ok(g.len - start_len)); break; } Ok(n) => g.len += n, Err(e) => { ret = Poll::Ready(Err(e)); break; } } } ret } /// Future for the [`AsyncReadExt::read_exact()`] method. #[derive(Debug)] #[must_use = "futures do nothing unless you `.await` or poll them"] pub struct ReadExactFuture<'a, R: Unpin + ?Sized> { reader: &'a mut R, buf: &'a mut [u8], } impl<R: Unpin + ?Sized> Unpin for ReadExactFuture<'_, R> {} impl<R: AsyncRead + Unpin + ?Sized> Future for ReadExactFuture<'_, R> { type Output = Result<()>; fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> { let Self { reader, buf } = &mut *self; while !buf.is_empty() { let n = ready!(Pin::new(&mut *reader).poll_read(cx, buf))?; let (_, rest) = mem::replace(buf, &mut []).split_at_mut(n); *buf = rest; if n == 0 { return Poll::Ready(Err(ErrorKind::UnexpectedEof.into())); } } Poll::Ready(Ok(())) } } pin_project! { /// Reader for the [`AsyncReadExt::take()`] method. #[derive(Debug)] pub struct Take<R> { #[pin] inner: R, limit: u64, } } impl<R> Take<R> { /// Returns the number of bytes before this adapter will return EOF. /// /// Note that EOF may be reached sooner if the underlying reader is shorter than the limit. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncReadExt, Cursor}; /// /// let reader = Cursor::new("hello"); /// /// let reader = reader.take(3); /// assert_eq!(reader.limit(), 3); /// ``` pub fn limit(&self) -> u64 { self.limit } /// Puts a limit on the number of bytes. /// /// Changing the limit is equivalent to creating a new adapter with [`AsyncReadExt::take()`]. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncReadExt, Cursor}; /// /// let reader = Cursor::new("hello"); /// /// let mut reader = reader.take(10); /// assert_eq!(reader.limit(), 10); /// /// reader.set_limit(3); /// assert_eq!(reader.limit(), 3); /// ``` pub fn set_limit(&mut self, limit: u64) { self.limit = limit; } /// Gets a reference to the underlying reader. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncReadExt, Cursor}; /// /// let reader = Cursor::new("hello"); /// /// let reader = reader.take(3); /// let r = reader.get_ref(); /// ``` pub fn get_ref(&self) -> &R { &self.inner } /// Gets a mutable reference to the underlying reader. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncReadExt, Cursor}; /// /// let reader = Cursor::new("hello"); /// /// let mut reader = reader.take(3); /// let r = reader.get_mut(); /// ``` pub fn get_mut(&mut self) -> &mut R { &mut self.inner } /// Unwraps the adapter, returning the underlying reader. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncReadExt, Cursor}; /// /// let reader = Cursor::new("hello"); /// /// let reader = reader.take(3); /// let reader = reader.into_inner(); /// ``` pub fn into_inner(self) -> R { self.inner } } impl<R: AsyncRead> AsyncRead for Take<R> { fn poll_read( self: Pin<&mut Self>, cx: &mut Context<'_>, buf: &mut [u8], ) -> Poll<Result<usize>> { let this = self.project(); take_read_internal(this.inner, cx, buf, this.limit) } } fn take_read_internal<R: AsyncRead + ?Sized>( mut rd: Pin<&mut R>, cx: &mut Context<'_>, buf: &mut [u8], limit: &mut u64, ) -> Poll<Result<usize>> { // Don't call into inner reader at all at EOF because it may still block if *limit == 0 { return Poll::Ready(Ok(0)); } let max = cmp::min(buf.len() as u64, *limit) as usize; match ready!(rd.as_mut().poll_read(cx, &mut buf[..max])) { Ok(n) => { *limit -= n as u64; Poll::Ready(Ok(n)) } Err(e) => Poll::Ready(Err(e)), } } impl<R: AsyncBufRead> AsyncBufRead for Take<R> { fn poll_fill_buf(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Result<&[u8]>> { let this = self.project(); if *this.limit == 0 { return Poll::Ready(Ok(&[])); } match ready!(this.inner.poll_fill_buf(cx)) { Ok(buf) => { let cap = cmp::min(buf.len() as u64, *this.limit) as usize; Poll::Ready(Ok(&buf[..cap])) } Err(e) => Poll::Ready(Err(e)), } } fn consume(self: Pin<&mut Self>, amt: usize) { let this = self.project(); // Don't let callers reset the limit by passing an overlarge value let amt = cmp::min(amt as u64, *this.limit) as usize; *this.limit -= amt as u64; this.inner.consume(amt); } } pin_project! { /// Reader for the [`AsyncReadExt::bytes()`] method. #[derive(Debug)] pub struct Bytes<R> { #[pin] inner: R, } } impl<R: AsyncRead + Unpin> Stream for Bytes<R> { type Item = Result<u8>; fn poll_next(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Option<Self::Item>> { let mut byte = 0; let rd = Pin::new(&mut self.inner); match ready!(rd.poll_read(cx, std::slice::from_mut(&mut byte))) { Ok(0) => Poll::Ready(None), Ok(..) => Poll::Ready(Some(Ok(byte))), Err(ref e) if e.kind() == ErrorKind::Interrupted => Poll::Pending, Err(e) => Poll::Ready(Some(Err(e))), } } } impl<R: AsyncRead> AsyncRead for Bytes<R> { fn poll_read( self: Pin<&mut Self>, cx: &mut Context<'_>, buf: &mut [u8], ) -> Poll<Result<usize>> { self.project().inner.poll_read(cx, buf) } fn poll_read_vectored( self: Pin<&mut Self>, cx: &mut Context<'_>, bufs: &mut [IoSliceMut<'_>], ) -> Poll<Result<usize>> { self.project().inner.poll_read_vectored(cx, bufs) } } pin_project! { /// Reader for the [`AsyncReadExt::chain()`] method. pub struct Chain<R1, R2> { #[pin] first: R1, #[pin] second: R2, done_first: bool, } } impl<R1, R2> Chain<R1, R2> { /// Gets references to the underlying readers. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncReadExt, Cursor}; /// /// let r1 = Cursor::new(b"hello"); /// let r2 = Cursor::new(b"world"); /// /// let reader = r1.chain(r2); /// let (r1, r2) = reader.get_ref(); /// ``` pub fn get_ref(&self) -> (&R1, &R2) { (&self.first, &self.second) } /// Gets mutable references to the underlying readers. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncReadExt, Cursor}; /// /// let r1 = Cursor::new(b"hello"); /// let r2 = Cursor::new(b"world"); /// /// let mut reader = r1.chain(r2); /// let (r1, r2) = reader.get_mut(); /// ``` pub fn get_mut(&mut self) -> (&mut R1, &mut R2) { (&mut self.first, &mut self.second) } /// Unwraps the adapter, returning the underlying readers. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncReadExt, Cursor}; /// /// let r1 = Cursor::new(b"hello"); /// let r2 = Cursor::new(b"world"); /// /// let reader = r1.chain(r2); /// let (r1, r2) = reader.into_inner(); /// ``` pub fn into_inner(self) -> (R1, R2) { (self.first, self.second) } } impl<R1: fmt::Debug, R2: fmt::Debug> fmt::Debug for Chain<R1, R2> { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { f.debug_struct("Chain") .field("r1", &self.first) .field("r2", &self.second) .finish() } } impl<R1: AsyncRead, R2: AsyncRead> AsyncRead for Chain<R1, R2> { fn poll_read( self: Pin<&mut Self>, cx: &mut Context<'_>, buf: &mut [u8], ) -> Poll<Result<usize>> { let this = self.project(); if !*this.done_first { match ready!(this.first.poll_read(cx, buf)) { Ok(0) if !buf.is_empty() => *this.done_first = true, Ok(n) => return Poll::Ready(Ok(n)), Err(err) => return Poll::Ready(Err(err)), } } this.second.poll_read(cx, buf) } fn poll_read_vectored( self: Pin<&mut Self>, cx: &mut Context<'_>, bufs: &mut [IoSliceMut<'_>], ) -> Poll<Result<usize>> { let this = self.project(); if !*this.done_first { match ready!(this.first.poll_read_vectored(cx, bufs)) { Ok(0) if !bufs.is_empty() => *this.done_first = true, Ok(n) => return Poll::Ready(Ok(n)), Err(err) => return Poll::Ready(Err(err)), } } this.second.poll_read_vectored(cx, bufs) } } impl<R1: AsyncBufRead, R2: AsyncBufRead> AsyncBufRead for Chain<R1, R2> { fn poll_fill_buf(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Result<&[u8]>> { let this = self.project(); if !*this.done_first { match ready!(this.first.poll_fill_buf(cx)) { Ok(buf) if buf.is_empty() => { *this.done_first = true; } Ok(buf) => return Poll::Ready(Ok(buf)), Err(err) => return Poll::Ready(Err(err)), } } this.second.poll_fill_buf(cx) } fn consume(self: Pin<&mut Self>, amt: usize) { let this = self.project(); if !*this.done_first { this.first.consume(amt) } else { this.second.consume(amt) } } } /// Extension trait for [`AsyncSeek`]. pub trait AsyncSeekExt: AsyncSeek { /// Seeks to a new position in a byte stream. /// /// Returns the new position in the byte stream. /// /// A seek beyond the end of stream is allowed, but behavior is defined by the implementation. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncSeekExt, Cursor, SeekFrom}; /// /// # spin_on::spin_on(async { /// let mut cursor = Cursor::new("hello"); /// /// // Move the cursor to the end. /// cursor.seek(SeekFrom::End(0)).await?; /// /// // Check the current position. /// assert_eq!(cursor.seek(SeekFrom::Current(0)).await?, 5); /// # std::io::Result::Ok(()) }); /// ``` fn seek(&mut self, pos: SeekFrom) -> SeekFuture<'_, Self> where Self: Unpin, { SeekFuture { seeker: self, pos } } } impl<S: AsyncSeek + ?Sized> AsyncSeekExt for S {} /// Future for the [`AsyncSeekExt::seek()`] method. #[derive(Debug)] #[must_use = "futures do nothing unless you `.await` or poll them"] pub struct SeekFuture<'a, S: Unpin + ?Sized> { seeker: &'a mut S, pos: SeekFrom, } impl<S: Unpin + ?Sized> Unpin for SeekFuture<'_, S> {} impl<S: AsyncSeek + Unpin + ?Sized> Future for SeekFuture<'_, S> { type Output = Result<u64>; fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> { let pos = self.pos; Pin::new(&mut *self.seeker).poll_seek(cx, pos) } } /// Extension trait for [`AsyncWrite`]. pub trait AsyncWriteExt: AsyncWrite { /// Writes some bytes into the byte stream. /// /// Returns the number of bytes written from the start of the buffer. /// /// If the return value is `Ok(n)` then it must be guaranteed that /// `0 <= n <= buf.len()`. A return value of `0` typically means that the underlying /// object is no longer able to accept bytes and will likely not be able to in the /// future as well, or that the provided buffer is empty. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncWriteExt, BufWriter}; /// /// # spin_on::spin_on(async { /// let mut output = Vec::new(); /// let mut writer = BufWriter::new(&mut output); /// /// let n = writer.write(b"hello").await?; /// # std::io::Result::Ok(()) }); /// ``` fn write<'a>(&'a mut self, buf: &'a [u8]) -> WriteFuture<'a, Self> where Self: Unpin, { WriteFuture { writer: self, buf } } /// Like [`write()`][`AsyncWriteExt::write()`], except that it writes a slice of buffers. /// /// Data is copied from each buffer in order, with the final buffer possibly being only /// partially consumed. This method must behave same as a call to /// [`write()`][`AsyncWriteExt::write()`] with the buffers concatenated would. fn write_vectored<'a>(&'a mut self, bufs: &'a [IoSlice<'a>]) -> WriteVectoredFuture<'a, Self> where Self: Unpin, { WriteVectoredFuture { writer: self, bufs } } /// Writes an entire buffer into the byte stream. /// /// This method will keep calling [`write()`][`AsyncWriteExt::write()`] until there is no more /// data to be written or an error occurs. It will not return before the entire buffer is /// successfully written or an error occurs. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncWriteExt, BufWriter}; /// /// # spin_on::spin_on(async { /// let mut output = Vec::new(); /// let mut writer = BufWriter::new(&mut output); /// /// let n = writer.write_all(b"hello").await?; /// # std::io::Result::Ok(()) }); /// ``` fn write_all<'a>(&'a mut self, buf: &'a [u8]) -> WriteAllFuture<'a, Self> where Self: Unpin, { WriteAllFuture { writer: self, buf } } /// Flushes the stream to ensure that all buffered contents reach their destination. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncWriteExt, BufWriter}; /// /// # spin_on::spin_on(async { /// let mut output = Vec::new(); /// let mut writer = BufWriter::new(&mut output); /// /// writer.write_all(b"hello").await?; /// writer.flush().await?; /// # std::io::Result::Ok(()) }); /// ``` fn flush(&mut self) -> FlushFuture<'_, Self> where Self: Unpin, { FlushFuture { writer: self } } /// Closes the writer. /// /// # Examples /// /// ``` /// use futures_lite::io::{AsyncWriteExt, BufWriter}; /// /// # spin_on::spin_on(async { /// let mut output = Vec::new(); /// let mut writer = BufWriter::new(&mut output); /// /// writer.close().await?; /// # std::io::Result::Ok(()) }); /// ``` fn close(&mut self) -> CloseFuture<'_, Self> where Self: Unpin, { CloseFuture { writer: self } } /// Boxes the writer and changes its type to `dyn AsyncWrite + Send + 'a`. /// /// # Examples /// /// ``` /// use futures_lite::io::AsyncWriteExt; /// /// let writer = Vec::<u8>::new().boxed_writer(); /// ``` #[cfg(feature = "alloc")] fn boxed_writer<'a>(self) -> Pin<Box<dyn AsyncWrite + Send + 'a>> where Self: Sized + Send + 'a, { Box::pin(self) } } impl<W: AsyncWrite + ?Sized> AsyncWriteExt for W {} /// Future for the [`AsyncWriteExt::write()`] method. #[derive(Debug)] #[must_use = "futures do nothing unless you `.await` or poll them"] pub struct WriteFuture<'a, W: Unpin + ?Sized> { writer: &'a mut W, buf: &'a [u8], } impl<W: Unpin + ?Sized> Unpin for WriteFuture<'_, W> {} impl<W: AsyncWrite + Unpin + ?Sized> Future for WriteFuture<'_, W> { type Output = Result<usize>; fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> { let buf = self.buf; Pin::new(&mut *self.writer).poll_write(cx, buf) } } /// Future for the [`AsyncWriteExt::write_vectored()`] method. #[derive(Debug)] #[must_use = "futures do nothing unless you `.await` or poll them"] pub struct WriteVectoredFuture<'a, W: Unpin + ?Sized> { writer: &'a mut W, bufs: &'a [IoSlice<'a>], } impl<W: Unpin + ?Sized> Unpin for WriteVectoredFuture<'_, W> {} impl<W: AsyncWrite + Unpin + ?Sized> Future for WriteVectoredFuture<'_, W> { type Output = Result<usize>; fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> { let bufs = self.bufs; Pin::new(&mut *self.writer).poll_write_vectored(cx, bufs) } } /// Future for the [`AsyncWriteExt::write_all()`] method. #[derive(Debug)] #[must_use = "futures do nothing unless you `.await` or poll them"] pub struct WriteAllFuture<'a, W: Unpin + ?Sized> { writer: &'a mut W, buf: &'a [u8], } impl<W: Unpin + ?Sized> Unpin for WriteAllFuture<'_, W> {} impl<W: AsyncWrite + Unpin + ?Sized> Future for WriteAllFuture<'_, W> { type Output = Result<()>; fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> { let Self { writer, buf } = &mut *self; while !buf.is_empty() { let n = ready!(Pin::new(&mut **writer).poll_write(cx, buf))?; let (_, rest) = mem::replace(buf, &[]).split_at(n); *buf = rest; if n == 0 { return Poll::Ready(Err(ErrorKind::WriteZero.into())); } } Poll::Ready(Ok(())) } } /// Future for the [`AsyncWriteExt::flush()`] method. #[derive(Debug)] #[must_use = "futures do nothing unless you `.await` or poll them"] pub struct FlushFuture<'a, W: Unpin + ?Sized> { writer: &'a mut W, } impl<W: Unpin + ?Sized> Unpin for FlushFuture<'_, W> {} impl<W: AsyncWrite + Unpin + ?Sized> Future for FlushFuture<'_, W> { type Output = Result<()>; fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> { Pin::new(&mut *self.writer).poll_flush(cx) } } /// Future for the [`AsyncWriteExt::close()`] method. #[derive(Debug)] #[must_use = "futures do nothing unless you `.await` or poll them"] pub struct CloseFuture<'a, W: Unpin + ?Sized> { writer: &'a mut W, } impl<W: Unpin + ?Sized> Unpin for CloseFuture<'_, W> {} impl<W: AsyncWrite + Unpin + ?Sized> Future for CloseFuture<'_, W> { type Output = Result<()>; fn poll(mut self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Self::Output> { Pin::new(&mut *self.writer).poll_close(cx) } } /// Type alias for `Pin<Box<dyn AsyncRead + Send + 'static>>`. /// /// # Examples /// /// ``` /// use futures_lite::io::AsyncReadExt; /// /// let reader = [1, 2, 3].boxed_reader(); /// ``` #[cfg(feature = "alloc")] pub type BoxedReader = Pin<Box<dyn AsyncRead + Send + 'static>>; /// Type alias for `Pin<Box<dyn AsyncWrite + Send + 'static>>`. /// /// # Examples /// /// ``` /// use futures_lite::io::AsyncWriteExt; /// /// let writer = Vec::<u8>::new().boxed_writer(); /// ``` #[cfg(feature = "alloc")] pub type BoxedWriter = Pin<Box<dyn AsyncWrite + Send + 'static>>; /// Splits a stream into [`AsyncRead`] and [`AsyncWrite`] halves. /// /// # Examples /// /// ``` /// use futures_lite::io::{self, Cursor}; /// /// # spin_on::spin_on(async { /// let stream = Cursor::new(vec![]); /// let (mut reader, mut writer) = io::split(stream); /// # std::io::Result::Ok(()) }); /// ``` pub fn split<T>(stream: T) -> (ReadHalf<T>, WriteHalf<T>) where T: AsyncRead + AsyncWrite + Unpin, { let inner = Arc::new(Mutex::new(stream)); (ReadHalf(inner.clone()), WriteHalf(inner)) } /// The read half returned by [`split()`]. #[derive(Debug)] pub struct ReadHalf<T>(Arc<Mutex<T>>); /// The write half returned by [`split()`]. #[derive(Debug)] pub struct WriteHalf<T>(Arc<Mutex<T>>); impl<T: AsyncRead + Unpin> AsyncRead for ReadHalf<T> { fn poll_read( self: Pin<&mut Self>, cx: &mut Context<'_>, buf: &mut [u8], ) -> Poll<Result<usize>> { let mut inner = self.0.lock().unwrap(); Pin::new(&mut *inner).poll_read(cx, buf) } fn poll_read_vectored( self: Pin<&mut Self>, cx: &mut Context<'_>, bufs: &mut [IoSliceMut<'_>], ) -> Poll<Result<usize>> { let mut inner = self.0.lock().unwrap(); Pin::new(&mut *inner).poll_read_vectored(cx, bufs) } } impl<T: AsyncWrite + Unpin> AsyncWrite for WriteHalf<T> { fn poll_write(self: Pin<&mut Self>, cx: &mut Context<'_>, buf: &[u8]) -> Poll<Result<usize>> { let mut inner = self.0.lock().unwrap(); Pin::new(&mut *inner).poll_write(cx, buf) } fn poll_flush(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Result<()>> { let mut inner = self.0.lock().unwrap(); Pin::new(&mut *inner).poll_flush(cx) } fn poll_close(self: Pin<&mut Self>, cx: &mut Context<'_>) -> Poll<Result<()>> { let mut inner = self.0.lock().unwrap(); Pin::new(&mut *inner).poll_close(cx) } }