// Copyright 2013 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. use prelude::*; use comm::{Port, Chan}; use cmp; use io; use option::{None, Option, Some}; use super::{Reader, Writer, IoResult}; use vec::{bytes, CloneableVector, MutableVector, ImmutableVector}; /// Allows reading from a port. /// /// # Example /// /// ``` /// use std::io::PortReader; /// /// let (port, chan) = Chan::new(); /// # drop(chan); /// let mut reader = PortReader::new(port); /// /// let mut buf = ~[0u8, ..100]; /// match reader.read(buf) { /// Ok(nread) => println!("Read {} bytes", nread), /// Err(e) => println!("read error: {}", e), /// } /// ``` pub struct PortReader { priv buf: Option<~[u8]>, // A buffer of bytes received but not consumed. priv pos: uint, // How many of the buffered bytes have already be consumed. priv port: Port<~[u8]>, // The port to pull data from. priv closed: bool, // Whether the pipe this port connects to has been closed. } impl PortReader { pub fn new(port: Port<~[u8]>) -> PortReader { PortReader { buf: None, pos: 0, port: port, closed: false, } } } impl Reader for PortReader { fn read(&mut self, buf: &mut [u8]) -> IoResult { let mut num_read = 0; loop { match self.buf { Some(ref prev) => { let dst = buf.mut_slice_from(num_read); let src = prev.slice_from(self.pos); let count = cmp::min(dst.len(), src.len()); bytes::copy_memory(dst, src.slice_to(count)); num_read += count; self.pos += count; }, None => (), }; if num_read == buf.len() || self.closed { break; } self.pos = 0; self.buf = self.port.recv_opt(); self.closed = self.buf.is_none(); } if self.closed && num_read == 0 { Err(io::standard_error(io::EndOfFile)) } else { Ok(num_read) } } } /// Allows writing to a chan. /// /// # Example /// /// ``` /// # #[allow(unused_must_use)]; /// use std::io::ChanWriter; /// /// let (port, chan) = Chan::new(); /// # drop(port); /// let mut writer = ChanWriter::new(chan); /// writer.write("hello, world".as_bytes()); /// ``` pub struct ChanWriter { chan: Chan<~[u8]>, } impl ChanWriter { pub fn new(chan: Chan<~[u8]>) -> ChanWriter { ChanWriter { chan: chan } } } impl Clone for ChanWriter { fn clone(&self) -> ChanWriter { ChanWriter { chan: self.chan.clone() } } } impl Writer for ChanWriter { fn write(&mut self, buf: &[u8]) -> IoResult<()> { if !self.chan.try_send(buf.to_owned()) { Err(io::IoError { kind: io::BrokenPipe, desc: "Pipe closed", detail: None }) } else { Ok(()) } } } #[cfg(test)] mod test { use prelude::*; use super::*; use io; use task; #[test] fn test_port_reader() { let (port, chan) = Chan::new(); task::spawn(proc() { chan.send(~[1u8, 2u8]); chan.send(~[]); chan.send(~[3u8, 4u8]); chan.send(~[5u8, 6u8]); chan.send(~[7u8, 8u8]); }); let mut reader = PortReader::new(port); let mut buf = ~[0u8, ..3]; assert_eq!(Ok(0), reader.read([])); assert_eq!(Ok(3), reader.read(buf)); assert_eq!(~[1,2,3], buf); assert_eq!(Ok(3), reader.read(buf)); assert_eq!(~[4,5,6], buf); assert_eq!(Ok(2), reader.read(buf)); assert_eq!(~[7,8,6], buf); match reader.read(buf) { Ok(..) => fail!(), Err(e) => assert_eq!(e.kind, io::EndOfFile), } assert_eq!(~[7,8,6], buf); // Ensure it continues to fail in the same way. match reader.read(buf) { Ok(..) => fail!(), Err(e) => assert_eq!(e.kind, io::EndOfFile), } assert_eq!(~[7,8,6], buf); } #[test] fn test_chan_writer() { let (port, chan) = Chan::new(); let mut writer = ChanWriter::new(chan); writer.write_be_u32(42).unwrap(); let wanted = ~[0u8, 0u8, 0u8, 42u8]; let got = task::try(proc() { port.recv() }).unwrap(); assert_eq!(wanted, got); match writer.write_u8(1) { Ok(..) => fail!(), Err(e) => assert_eq!(e.kind, io::BrokenPipe), } } }