Module std::io 1.0.0[−][src]
Traits, helpers, and type definitions for core I/O functionality.
The std::io
module contains a number of common things you'll need
when doing input and output. The most core part of this module is
the Read
and Write
traits, which provide the
most general interface for reading and writing input and output.
Read and Write
Because they are traits, Read
and Write
are implemented by a number
of other types, and you can implement them for your types too. As such,
you'll see a few different types of I/O throughout the documentation in
this module: File
s, TcpStream
s, and sometimes even Vec<T>
s. For
example, Read
adds a read
method, which we can use on
File
s:
use std::io; use std::io::prelude::*; use std::fs::File; fn main() -> io::Result<()> { let mut f = File::open("foo.txt")?; let mut buffer = [0; 10]; // read up to 10 bytes f.read(&mut buffer)?; println!("The bytes: {:?}", buffer); Ok(()) }Run
Read
and Write
are so important, implementors of the two traits have a
nickname: readers and writers. So you'll sometimes see 'a reader' instead
of 'a type that implements the Read
trait'. Much easier!
Seek and BufRead
Beyond that, there are two important traits that are provided: Seek
and BufRead
. Both of these build on top of a reader to control
how the reading happens. Seek
lets you control where the next byte is
coming from:
use std::io; use std::io::prelude::*; use std::io::SeekFrom; use std::fs::File; fn main() -> io::Result<()> { let mut f = File::open("foo.txt")?; let mut buffer = [0; 10]; // skip to the last 10 bytes of the file f.seek(SeekFrom::End(-10))?; // read up to 10 bytes f.read(&mut buffer)?; println!("The bytes: {:?}", buffer); Ok(()) }Run
BufRead
uses an internal buffer to provide a number of other ways to read, but
to show it off, we'll need to talk about buffers in general. Keep reading!
BufReader and BufWriter
Byte-based interfaces are unwieldy and can be inefficient, as we'd need to be
making near-constant calls to the operating system. To help with this,
std::io
comes with two structs, BufReader
and BufWriter
, which wrap
readers and writers. The wrapper uses a buffer, reducing the number of
calls and providing nicer methods for accessing exactly what you want.
For example, BufReader
works with the BufRead
trait to add extra
methods to any reader:
use std::io; use std::io::prelude::*; use std::io::BufReader; use std::fs::File; fn main() -> io::Result<()> { let f = File::open("foo.txt")?; let mut reader = BufReader::new(f); let mut buffer = String::new(); // read a line into buffer reader.read_line(&mut buffer)?; println!("{}", buffer); Ok(()) }Run
BufWriter
doesn't add any new ways of writing; it just buffers every call
to write
:
use std::io; use std::io::prelude::*; use std::io::BufWriter; use std::fs::File; fn main() -> io::Result<()> { let f = File::create("foo.txt")?; { let mut writer = BufWriter::new(f); // write a byte to the buffer writer.write(&[42])?; } // the buffer is flushed once writer goes out of scope Ok(()) }Run
Standard input and output
A very common source of input is standard input:
use std::io; fn main() -> io::Result<()> { let mut input = String::new(); io::stdin().read_line(&mut input)?; println!("You typed: {}", input.trim()); Ok(()) }Run
Note that you cannot use the ?
operator in functions that do not return
a Result<T, E>
(e.g. main
). Instead, you can call .unwrap()
or match
on the return value to catch any possible errors:
use std::io; let mut input = String::new(); io::stdin().read_line(&mut input).unwrap();Run
And a very common source of output is standard output:
use std::io; use std::io::prelude::*; fn main() -> io::Result<()> { io::stdout().write(&[42])?; Ok(()) }Run
Of course, using io::stdout
directly is less common than something like
println!
.
Iterator types
A large number of the structures provided by std::io
are for various
ways of iterating over I/O. For example, Lines
is used to split over
lines:
use std::io; use std::io::prelude::*; use std::io::BufReader; use std::fs::File; fn main() -> io::Result<()> { let f = File::open("foo.txt")?; let reader = BufReader::new(f); for line in reader.lines() { println!("{}", line?); } Ok(()) }Run
Functions
There are a number of functions that offer access to various features. For example, we can use three of these functions to copy everything from standard input to standard output:
use std::io; fn main() -> io::Result<()> { io::copy(&mut io::stdin(), &mut io::stdout())?; Ok(()) }Run
io::Result
Last, but certainly not least, is io::Result
. This type is used
as the return type of many std::io
functions that can cause an error, and
can be returned from your own functions as well. Many of the examples in this
module use the ?
operator:
use std::io; fn read_input() -> io::Result<()> { let mut input = String::new(); io::stdin().read_line(&mut input)?; println!("You typed: {}", input.trim()); Ok(()) }Run
The return type of read_input()
, io::Result<()>
, is a very
common type for functions which don't have a 'real' return value, but do want to
return errors if they happen. In this case, the only purpose of this function is
to read the line and print it, so we use ()
.
Platform-specific behavior
Many I/O functions throughout the standard library are documented to indicate what various library or syscalls they are delegated to. This is done to help applications both understand what's happening under the hood as well as investigate any possibly unclear semantics. Note, however, that this is informative, not a binding contract. The implementation of many of these functions are subject to change over time and may call fewer or more syscalls/library functions.
Modules
prelude |
The I/O Prelude |
Structs
BufReader |
The |
BufWriter |
Wraps a writer and buffers its output. |
Bytes |
An iterator over |
Chain |
Adaptor to chain together two readers. |
Cursor |
A |
Empty |
A reader which is always at EOF. |
Error |
The error type for I/O operations of the |
IntoInnerError |
An error returned by |
LineWriter |
Wraps a writer and buffers output to it, flushing whenever a newline
( |
Lines |
An iterator over the lines of an instance of |
Repeat |
A reader which yields one byte over and over and over and over and over and... |
Sink |
A writer which will move data into the void. |
Split |
An iterator over the contents of an instance of |
Stderr |
A handle to the standard error stream of a process. |
StderrLock |
A locked reference to the |
Stdin |
A handle to the standard input stream of a process. |
StdinLock |
A locked reference to the |
Stdout |
A handle to the global standard output stream of the current process. |
StdoutLock |
A locked reference to the |
Take |
Reader adaptor which limits the bytes read from an underlying reader. |
Chars |
[ Deprecated ] [Experimental ] An iterator over the |
Initializer |
[ Experimental ] A type used to conditionally initialize buffers passed to |
Enums
ErrorKind |
A list specifying general categories of I/O error. |
SeekFrom |
Enumeration of possible methods to seek within an I/O object. |
CharsError |
[ Deprecated ] [Experimental ] An enumeration of possible errors that can be generated from the |
Traits
BufRead |
A |
Read |
The |
Seek |
The |
Write |
A trait for objects which are byte-oriented sinks. |
Functions
copy |
Copies the entire contents of a reader into a writer. |
empty |
Constructs a new handle to an empty reader. |
repeat |
Creates an instance of a reader that infinitely repeats one byte. |
sink |
Creates an instance of a writer which will successfully consume all data. |
stderr |
Constructs a new handle to the standard error of the current process. |
stdin |
Constructs a new handle to the standard input of the current process. |
stdout |
Constructs a new handle to the standard output of the current process. |
Type Definitions
Result |
A specialized |