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decoder.rs
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decoder.rs
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use std::io::{Error, ErrorKind, Read, Result};
use std::ptr;
use super::liblz4::*;
use libc::size_t;
const BUFFER_SIZE: usize = 32 * 1024;
struct DecoderContext {
c: LZ4FDecompressionContext,
}
pub struct Decoder<R> {
c: DecoderContext,
r: R,
buf: Box<[u8]>,
pos: usize,
len: usize,
next: usize,
}
impl<R: Read> Decoder<R> {
/// Creates a new encoder which will have its output written to the given
/// output stream. The output stream can be re-acquired by calling
/// `finish()`
pub fn new(r: R) -> Result<Decoder<R>> {
Ok(Decoder {
r: r,
c: try!(DecoderContext::new()),
buf: vec![0; BUFFER_SIZE].into_boxed_slice(),
pos: BUFFER_SIZE,
len: BUFFER_SIZE,
next: 15, // Minimal LZ4 stream size
})
}
/// Immutable reader reference.
pub fn reader(&self) -> &R {
&self.r
}
pub fn finish(self) -> (R, Result<()>) {
(self.r,
match self.next {
0 => Ok(()),
_ => {
Err(Error::new(ErrorKind::Interrupted,
"Finish runned before read end of compressed stream"))
}
})
}
}
impl<R: Read> Read for Decoder<R> {
fn read(&mut self, buf: &mut [u8]) -> Result<usize> {
if self.next == 0 || buf.len() == 0 {
return Ok(0);
}
let mut dst_offset: usize = 0;
while dst_offset == 0 {
if self.pos >= self.len {
let need = match self.buf.len() < self.next {
true => self.buf.len(),
false => self.next,
};
self.len = try!(self.r.read(&mut self.buf[0..need]));
if self.len <= 0 {
break;
}
self.pos = 0;
self.next -= self.len;
}
while (dst_offset < buf.len()) && (self.pos < self.len) {
let mut src_size = (self.len - self.pos) as size_t;
let mut dst_size = (buf.len() - dst_offset) as size_t;
let len = try!(check_error(unsafe {
LZ4F_decompress(self.c.c,
buf[dst_offset..].as_mut_ptr(),
&mut dst_size,
self.buf[self.pos..].as_ptr(),
&mut src_size,
ptr::null())
}));
self.pos += src_size as usize;
dst_offset += dst_size as usize;
if len == 0 {
self.next = 0;
return Ok(dst_offset);
} else if self.next < len {
self.next = len;
}
}
}
Ok(dst_offset)
}
}
impl DecoderContext {
fn new() -> Result<DecoderContext> {
let mut context: LZ4FDecompressionContext = ptr::null_mut();
try!(check_error(unsafe { LZ4F_createDecompressionContext(&mut context, LZ4F_VERSION) }));
Ok(DecoderContext { c: context })
}
}
impl Drop for DecoderContext {
fn drop(&mut self) {
unsafe { LZ4F_freeDecompressionContext(self.c) };
}
}
#[cfg(test)]
mod test {
use std::io::{Cursor, Read, Write};
use super::super::encoder::{Encoder, EncoderBuilder};
use super::Decoder;
const BUFFER_SIZE: usize = 64 * 1024;
const END_MARK: [u8; 4] = [0x9f, 0x77, 0x22, 0x71];
fn finish_encode<W: Write>(encoder: Encoder<W>) -> W {
let (mut buffer, result) = encoder.finish();
result.unwrap();
buffer.write(&END_MARK).unwrap();
buffer
}
fn finish_decode<R: Read>(decoder: Decoder<R>) {
let (mut buffer, result) = decoder.finish();
result.unwrap();
let mut mark = Vec::new();
let mut data = Vec::new();
mark.write(&END_MARK).unwrap();
buffer.read_to_end(&mut data).unwrap();
assert_eq!(mark, data);
}
#[test]
fn test_decoder_empty() {
let expected: Vec<u8> = Vec::new();
let buffer = finish_encode(EncoderBuilder::new().level(1).build(Vec::new()).unwrap());
let mut decoder = Decoder::new(Cursor::new(buffer)).unwrap();
let mut actual = Vec::new();
decoder.read_to_end(&mut actual).unwrap();
assert_eq!(expected, actual);
finish_decode(decoder);
}
#[test]
fn test_decoder_smoke() {
let mut encoder = EncoderBuilder::new().level(1).build(Vec::new()).unwrap();
let mut expected = Vec::new();
expected.write(b"Some data").unwrap();
encoder.write(&expected[..4]).unwrap();
encoder.write(&expected[4..]).unwrap();
let buffer = finish_encode(encoder);
let mut decoder = Decoder::new(Cursor::new(buffer)).unwrap();
let mut actual = Vec::new();
decoder.read_to_end(&mut actual).unwrap();
assert_eq!(expected, actual);
finish_decode(decoder);
}
#[test]
fn test_decoder_random() {
let mut encoder = EncoderBuilder::new().level(1).build(Vec::new()).unwrap();
let mut expected = Vec::new();
let mut rnd: u32 = 42;
for _ in 0..1027 * 1023 * 7 {
expected.push((rnd & 0xFF) as u8);
rnd = ((1664525 as u64) * (rnd as u64) + (1013904223 as u64)) as u32;
}
encoder.write(&expected).unwrap();
let encoded = finish_encode(encoder);
let mut decoder = Decoder::new(Cursor::new(encoded)).unwrap();
let mut actual = Vec::new();
loop {
let mut buffer = [0; BUFFER_SIZE];
let size = decoder.read(&mut buffer).unwrap();
if size == 0 {
break;
}
actual.write(&buffer[0..size]).unwrap();
}
assert_eq!(expected, actual);
finish_decode(decoder);
}
}