关于调用os的命令 ```rust use std::process::Command; fn main() { let output = Command::new("rustc") .arg("--versn") .output().unwrap_or_else(|e| { panic!("failed to execute process: {}", e) }); if output.status.success() { let s = String::from_utf8_lossy(&output.stdout); print!("rustc succeeded and stdout was:\n{}", s); } else { let s = String::from_utf8_lossy(&output.stderr); print!("rustc failed and stderr was:\n{}", s); } } ``` ## Pipes The std::Child struct represents a running child process, and exposes the stdin, stdout and stderr handles for interaction with the underlying process via pipes. ```rust use std::io::prelude::*; use std::process::{Command, Stdio}; static PANGRAM: &'static str = "the quick brown fox jumped over the lazy dog\n"; fn main() { // Spawn the `wc` command let process = match Command::new("wc") .stdin(Stdio::piped()) .stdout(Stdio::piped()) .spawn() { Err(why) => panic!("couldn't spawn wc: {}", why), Ok(process) => process, }; // Write a string to the `stdin` of `wc`. // // `stdin` has type `Option`, but since we know this instance // must have one, we can directly `unwrap` it. match process.stdin.unwrap().write_all(PANGRAM.as_bytes()) { Err(why) => panic!("couldn't write to wc stdin: {}", why), Ok(_) => println!("sent pangram to wc"), } // Because `stdin` does not live after the above calls, it is `drop`ed, // and the pipe is closed. // // This is very important, otherwise `wc` wouldn't start processing the // input we just sent. // The `stdout` field also has type `Option` so must be unwrapped. let mut s = String::new(); match process.stdout.unwrap().read_to_string(&mut s) { Err(why) => panic!("couldn't read wc stdout: {}", why), Ok(_) => print!("wc responded with:\n{}", s), } } ```