rust/src/libstd/io/extensions.rs

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// Copyright 2013-2014 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 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
//! Utility mixins that apply to all Readers and Writers
// FIXME: Not sure how this should be structured
// FIXME: Iteration should probably be considered separately
use container::Container;
use iter::Iterator;
use option::Option;
use io::Reader;
use vec::{OwnedVector, ImmutableVector};
/// An iterator that reads a single byte on each iteration,
/// until `.read_byte()` returns `None`.
///
/// # Notes about the Iteration Protocol
///
/// The `Bytes` may yield `None` and thus terminate
/// an iteration, but continue to yield elements if iteration
/// is attempted again.
///
/// # Failure
///
/// Raises the same conditions as the `read` method, for
/// each call to its `.next()` method.
/// Yields `None` if the condition is handled.
pub struct Bytes<'r, T> {
priv reader: &'r mut T,
}
impl<'r, R: Reader> Bytes<'r, R> {
pub fn new(r: &'r mut R) -> Bytes<'r, R> {
Bytes { reader: r }
}
}
impl<'r, R: Reader> Iterator<u8> for Bytes<'r, R> {
#[inline]
fn next(&mut self) -> Option<u8> {
self.reader.read_byte().ok()
}
}
pub fn u64_to_le_bytes<T>(n: u64, size: uint, f: |v: &[u8]| -> T) -> T {
use unstable::intrinsics::{to_le16, to_le32, to_le64};
use cast::transmute;
// LLVM fails to properly optimize this when using shifts instead of the to_le* intrinsics
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assert!(size <= 8u);
match size {
1u => f(&[n as u8]),
2u => f(unsafe { transmute::<i16, [u8, ..2]>(to_le16(n as i16)) }),
4u => f(unsafe { transmute::<i32, [u8, ..4]>(to_le32(n as i32)) }),
8u => f(unsafe { transmute::<i64, [u8, ..8]>(to_le64(n as i64)) }),
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_ => {
let mut bytes: ~[u8] = ~[];
let mut i = size;
let mut n = n;
while i > 0u {
bytes.push((n & 255_u64) as u8);
n >>= 8_u64;
i -= 1u;
}
f(bytes)
}
}
}
pub fn u64_to_be_bytes<T>(n: u64, size: uint, f: |v: &[u8]| -> T) -> T {
use unstable::intrinsics::{to_be16, to_be32, to_be64};
use cast::transmute;
// LLVM fails to properly optimize this when using shifts instead of the to_be* intrinsics
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assert!(size <= 8u);
match size {
1u => f(&[n as u8]),
2u => f(unsafe { transmute::<i16, [u8, ..2]>(to_be16(n as i16)) }),
4u => f(unsafe { transmute::<i32, [u8, ..4]>(to_be32(n as i32)) }),
8u => f(unsafe { transmute::<i64, [u8, ..8]>(to_be64(n as i64)) }),
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_ => {
let mut bytes: ~[u8] = ~[];
let mut i = size;
while i > 0u {
let shift = ((i - 1u) * 8u) as u64;
bytes.push((n >> shift) as u8);
i -= 1u;
}
f(bytes)
}
}
}
pub fn u64_from_be_bytes(data: &[u8],
start: uint,
size: uint)
-> u64 {
use ptr::{copy_nonoverlapping_memory, offset, mut_offset};
use unstable::intrinsics::from_be64;
use vec::MutableVector;
assert!(size <= 8u);
if data.len() - start < size {
fail!("index out of bounds");
}
let mut buf = [0u8, ..8];
unsafe {
let ptr = offset(data.as_ptr(), start as int);
let out = buf.as_mut_ptr();
copy_nonoverlapping_memory(mut_offset(out, (8 - size) as int), ptr, size);
from_be64(*(out as *i64)) as u64
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}
}
#[cfg(test)]
mod test {
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use prelude::*;
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use io;
use io::{MemReader, MemWriter};
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struct InitialZeroByteReader {
count: int,
}
impl Reader for InitialZeroByteReader {
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fn read(&mut self, buf: &mut [u8]) -> io::IoResult<uint> {
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if self.count == 0 {
self.count = 1;
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Ok(0)
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} else {
buf[0] = 10;
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Ok(1)
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}
}
}
struct EofReader;
impl Reader for EofReader {
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fn read(&mut self, _: &mut [u8]) -> io::IoResult<uint> {
Err(io::standard_error(io::EndOfFile))
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}
}
struct ErroringReader;
impl Reader for ErroringReader {
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fn read(&mut self, _: &mut [u8]) -> io::IoResult<uint> {
Err(io::standard_error(io::InvalidInput))
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}
}
struct PartialReader {
count: int,
}
impl Reader for PartialReader {
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fn read(&mut self, buf: &mut [u8]) -> io::IoResult<uint> {
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if self.count == 0 {
self.count = 1;
buf[0] = 10;
buf[1] = 11;
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Ok(2)
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} else {
buf[0] = 12;
buf[1] = 13;
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Ok(2)
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}
}
}
struct ErroringLaterReader {
count: int,
}
impl Reader for ErroringLaterReader {
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fn read(&mut self, buf: &mut [u8]) -> io::IoResult<uint> {
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if self.count == 0 {
self.count = 1;
buf[0] = 10;
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Ok(1)
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} else {
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Err(io::standard_error(io::InvalidInput))
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}
}
}
struct ThreeChunkReader {
count: int,
}
impl Reader for ThreeChunkReader {
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fn read(&mut self, buf: &mut [u8]) -> io::IoResult<uint> {
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if self.count == 0 {
self.count = 1;
buf[0] = 10;
buf[1] = 11;
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Ok(2)
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} else if self.count == 1 {
self.count = 2;
buf[0] = 12;
buf[1] = 13;
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Ok(2)
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} else {
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Err(io::standard_error(io::EndOfFile))
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}
}
}
#[test]
fn read_byte() {
let mut reader = MemReader::new(~[10]);
let byte = reader.read_byte();
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assert!(byte == Ok(10));
}
#[test]
fn read_byte_0_bytes() {
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let mut reader = InitialZeroByteReader {
count: 0,
};
let byte = reader.read_byte();
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assert!(byte == Ok(10));
}
#[test]
fn read_byte_eof() {
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let mut reader = EofReader;
let byte = reader.read_byte();
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assert!(byte.is_err());
}
#[test]
fn read_byte_error() {
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let mut reader = ErroringReader;
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let byte = reader.read_byte();
assert!(byte.is_err());
}
#[test]
fn bytes_0_bytes() {
let mut reader = InitialZeroByteReader {
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count: 0,
};
let byte = reader.bytes().next();
assert!(byte == Some(10));
}
#[test]
fn bytes_eof() {
let mut reader = EofReader;
let byte = reader.bytes().next();
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assert!(byte.is_none());
}
#[test]
fn bytes_error() {
let mut reader = ErroringReader;
let mut it = reader.bytes();
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let byte = it.next();
assert!(byte.is_none());
}
#[test]
fn read_bytes() {
let mut reader = MemReader::new(~[10, 11, 12, 13]);
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let bytes = reader.read_bytes(4).unwrap();
assert!(bytes == ~[10, 11, 12, 13]);
}
#[test]
fn read_bytes_partial() {
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let mut reader = PartialReader {
count: 0,
};
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let bytes = reader.read_bytes(4).unwrap();
assert!(bytes == ~[10, 11, 12, 13]);
}
#[test]
fn read_bytes_eof() {
let mut reader = MemReader::new(~[10, 11]);
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assert!(reader.read_bytes(4).is_err());
}
#[test]
fn push_bytes() {
let mut reader = MemReader::new(~[10, 11, 12, 13]);
let mut buf = ~[8, 9];
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reader.push_bytes(&mut buf, 4).unwrap();
assert!(buf == ~[8, 9, 10, 11, 12, 13]);
}
#[test]
fn push_bytes_partial() {
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let mut reader = PartialReader {
count: 0,
};
let mut buf = ~[8, 9];
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reader.push_bytes(&mut buf, 4).unwrap();
assert!(buf == ~[8, 9, 10, 11, 12, 13]);
}
#[test]
fn push_bytes_eof() {
let mut reader = MemReader::new(~[10, 11]);
let mut buf = ~[8, 9];
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assert!(reader.push_bytes(&mut buf, 4).is_err());
assert!(buf == ~[8, 9, 10, 11]);
}
#[test]
fn push_bytes_error() {
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let mut reader = ErroringLaterReader {
count: 0,
};
let mut buf = ~[8, 9];
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assert!(reader.push_bytes(&mut buf, 4).is_err());
assert!(buf == ~[8, 9, 10]);
}
#[test]
fn read_to_end() {
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let mut reader = ThreeChunkReader {
count: 0,
};
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let buf = reader.read_to_end().unwrap();
assert!(buf == ~[10, 11, 12, 13]);
}
#[test]
#[should_fail]
fn read_to_end_error() {
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let mut reader = ThreeChunkReader {
count: 0,
};
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let buf = reader.read_to_end().unwrap();
assert!(buf == ~[10, 11]);
}
#[test]
fn test_read_write_le_mem() {
let uints = [0, 1, 2, 42, 10_123, 100_123_456, ::u64::MAX];
let mut writer = MemWriter::new();
for i in uints.iter() {
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writer.write_le_u64(*i).unwrap();
}
let mut reader = MemReader::new(writer.unwrap());
for i in uints.iter() {
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assert!(reader.read_le_u64().unwrap() == *i);
}
}
#[test]
fn test_read_write_be() {
let uints = [0, 1, 2, 42, 10_123, 100_123_456, ::u64::MAX];
let mut writer = MemWriter::new();
for i in uints.iter() {
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writer.write_be_u64(*i).unwrap();
}
let mut reader = MemReader::new(writer.unwrap());
for i in uints.iter() {
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assert!(reader.read_be_u64().unwrap() == *i);
}
}
#[test]
fn test_read_be_int_n() {
let ints = [::i32::MIN, -123456, -42, -5, 0, 1, ::i32::MAX];
let mut writer = MemWriter::new();
for i in ints.iter() {
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writer.write_be_i32(*i).unwrap();
}
let mut reader = MemReader::new(writer.unwrap());
for i in ints.iter() {
// this tests that the sign extension is working
// (comparing the values as i32 would not test this)
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assert!(reader.read_be_int_n(4).unwrap() == *i as i64);
}
}
#[test]
fn test_read_f32() {
//big-endian floating-point 8.1250
let buf = ~[0x41, 0x02, 0x00, 0x00];
let mut writer = MemWriter::new();
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writer.write(buf).unwrap();
let mut reader = MemReader::new(writer.unwrap());
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let f = reader.read_be_f32().unwrap();
assert!(f == 8.1250);
}
#[test]
fn test_read_write_f32() {
let f:f32 = 8.1250;
let mut writer = MemWriter::new();
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writer.write_be_f32(f).unwrap();
writer.write_le_f32(f).unwrap();
let mut reader = MemReader::new(writer.unwrap());
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assert!(reader.read_be_f32().unwrap() == 8.1250);
assert!(reader.read_le_f32().unwrap() == 8.1250);
}
#[test]
fn test_u64_from_be_bytes() {
use super::u64_from_be_bytes;
let buf = [0x01, 0x02, 0x03, 0x04, 0x05, 0x06, 0x07, 0x08, 0x09];
// Aligned access
assert_eq!(u64_from_be_bytes(buf, 0, 0), 0);
assert_eq!(u64_from_be_bytes(buf, 0, 1), 0x01);
assert_eq!(u64_from_be_bytes(buf, 0, 2), 0x0102);
assert_eq!(u64_from_be_bytes(buf, 0, 3), 0x010203);
assert_eq!(u64_from_be_bytes(buf, 0, 4), 0x01020304);
assert_eq!(u64_from_be_bytes(buf, 0, 5), 0x0102030405);
assert_eq!(u64_from_be_bytes(buf, 0, 6), 0x010203040506);
assert_eq!(u64_from_be_bytes(buf, 0, 7), 0x01020304050607);
assert_eq!(u64_from_be_bytes(buf, 0, 8), 0x0102030405060708);
// Unaligned access
assert_eq!(u64_from_be_bytes(buf, 1, 0), 0);
assert_eq!(u64_from_be_bytes(buf, 1, 1), 0x02);
assert_eq!(u64_from_be_bytes(buf, 1, 2), 0x0203);
assert_eq!(u64_from_be_bytes(buf, 1, 3), 0x020304);
assert_eq!(u64_from_be_bytes(buf, 1, 4), 0x02030405);
assert_eq!(u64_from_be_bytes(buf, 1, 5), 0x0203040506);
assert_eq!(u64_from_be_bytes(buf, 1, 6), 0x020304050607);
assert_eq!(u64_from_be_bytes(buf, 1, 7), 0x02030405060708);
assert_eq!(u64_from_be_bytes(buf, 1, 8), 0x0203040506070809);
}
}
#[cfg(test)]
mod bench {
use extra::test::BenchHarness;
use container::Container;
macro_rules! u64_from_be_bytes_bench_impl(
($size:expr, $stride:expr, $start_index:expr) =>
({
use vec;
use super::u64_from_be_bytes;
let data = vec::from_fn($stride*100+$start_index, |i| i as u8);
let mut sum = 0u64;
bh.iter(|| {
let mut i = $start_index;
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while i < data.len() {
sum += u64_from_be_bytes(data, i, $size);
i += $stride;
}
});
})
)
#[bench]
fn u64_from_be_bytes_4_aligned(bh: &mut BenchHarness) {
u64_from_be_bytes_bench_impl!(4, 4, 0);
}
#[bench]
fn u64_from_be_bytes_4_unaligned(bh: &mut BenchHarness) {
u64_from_be_bytes_bench_impl!(4, 4, 1);
}
#[bench]
fn u64_from_be_bytes_7_aligned(bh: &mut BenchHarness) {
u64_from_be_bytes_bench_impl!(7, 8, 0);
}
#[bench]
fn u64_from_be_bytes_7_unaligned(bh: &mut BenchHarness) {
u64_from_be_bytes_bench_impl!(7, 8, 1);
}
#[bench]
fn u64_from_be_bytes_8_aligned(bh: &mut BenchHarness) {
u64_from_be_bytes_bench_impl!(8, 8, 0);
}
#[bench]
fn u64_from_be_bytes_8_unaligned(bh: &mut BenchHarness) {
u64_from_be_bytes_bench_impl!(8, 8, 1);
}
}