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decoder.rs
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decoder.rs
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use std::cmp;
use std::mem;
use std::default::Default;
use std::io;
use std::fmt;
use std::error;
use lzw;
use traits::Parameter;
use common::{Frame, Block, Extension, DisposalMethod};
/// GIF palettes are RGB
pub const PLTE_CHANNELS: usize = 3;
#[derive(Debug)]
/// Decoding error.
pub enum DecodingError {
/// Returned if the image is found to be malformed.
Format(&'static str),
/// Internal (logic) error.
Internal(&'static str),
/// Wraps `std::io::Error`.
Io(io::Error),
}
impl fmt::Display for DecodingError {
fn fmt(&self, fmt: &mut fmt::Formatter) -> fmt::Result {
match *self {
DecodingError::Format(ref d) => d.fmt(fmt),
DecodingError::Internal(ref d) => d.fmt(fmt),
DecodingError::Io(ref err) => err.fmt(fmt),
}
}
}
impl error::Error for DecodingError {
fn description(&self) -> &str {
match *self {
DecodingError::Format(ref d) => d,
DecodingError::Internal(ref d) => d,
DecodingError::Io(ref err) => err.description(),
}
}
fn cause(&self) -> Option<&error::Error> {
match *self {
DecodingError::Io(ref err) => Some(err),
_ => None,
}
}
}
impl From<io::Error> for DecodingError {
fn from(err: io::Error) -> Self {
DecodingError::Io(err)
}
}
/// Configures how extensions should be handled
#[derive(PartialEq, Debug)]
pub enum Extensions {
/// Saves all extention data
Save,
/// Skips the data of unknown extensions
/// and extracts the data from known ones
Skip
}
impl Parameter<StreamingDecoder> for Extensions {
type Result = ();
fn set_param(self, this: &mut StreamingDecoder) {
this.skip_extensions = match self {
Extensions::Skip => true,
Extensions::Save => false,
}
}
}
/// Indicates whether a certain object has been decoded
#[derive(Debug)]
pub enum Decoded<'a> {
/// Decoded nothing.
Nothing,
/// Global palette.
GlobalPalette(Vec<u8>),
/// Index of the background color in the global palette.
BackgroundColor(u8),
/// Decoded the image trailer.
Trailer,
/// The start of a block.
BlockStart(Block),
/// Decoded a sub-block. More sub-block are available.
SubBlockFinished(u8, &'a [u8]),
/// Decoded the last (or only) sub-block of a block.
BlockFinished(u8, &'a [u8]),
/// Decoded all information of the next frame.
/// The returned frame does **not** any image data.
Frame(&'a Frame<'static>),
/// Decoded some data of the current frame.
Data(&'a [u8]),
/// No more data available the current frame.
DataEnd,
}
/// Internal state of the GIF decoder
#[derive(Debug)]
enum State {
Magic(usize, [u8; 6]),
U16Byte1(U16Value, u8),
U16(U16Value),
Byte(ByteValue),
GlobalPalette(usize),
BlockStart(Option<Block>),
BlockEnd(u8),
ExtensionBlock(u8),
SkipBlock(usize),
LocalPalette(usize),
LzwInit(u8),
DecodeSubBlock(usize),
FrameDecoded,
Trailer
}
use self::State::*;
/// U16 values that may occur in a GIF image
#[derive(Debug)]
enum U16Value {
/// Logical screen descriptor width
ScreenWidth,
/// Logical screen descriptor height
ScreenHeight,
/// Delay time
Delay,
/// Left frame offset
ImageLeft,
/// Top frame offset
ImageTop,
/// Frame width
ImageWidth,
/// Frame height
ImageHeight,
}
/// Single byte screen descriptor values
#[derive(Debug)]
enum ByteValue {
GlobalFlags,
Background { table_size: usize },
AspectRatio { table_size: usize },
ControlFlags,
ImageFlags,
TransparentIdx,
CodeSize,
}
/// GIF decoder which supports streaming
#[derive(Debug)]
pub struct StreamingDecoder {
state: Option<State>,
lzw_reader: Option<lzw::Decoder<lzw::LsbReader>>,
skip_extensions: bool,
version: &'static str,
width: u16,
height: u16,
global_color_table: Vec<u8>,
background_color: [u8; 4],
/// ext buffer
ext: (u8, Vec<u8>, bool),
/// Frame data
current: Option<Frame<'static>>,
}
impl StreamingDecoder {
/// Creates a new streaming decoder
pub fn new() -> StreamingDecoder {
StreamingDecoder {
state: Some(Magic(0, [0; 6])),
lzw_reader: None,
skip_extensions: true,
version: "",
width: 0,
height: 0,
global_color_table: Vec::new(),
background_color: [0, 0, 0, 0xFF],
ext: (0, Vec::with_capacity(256), true), // 0xFF + 1 byte length
current: None
}
}
/// Updates the internal state of the decoder.
///
/// Returns the number of bytes consumed from the input buffer
/// and the last decoding result.
pub fn update<'a>(&'a mut self, mut buf: &[u8])
-> Result<(usize, Decoded<'a>), DecodingError> {
// NOTE: Do not change the function signature without double-checking the
// unsafe block!
let len = buf.len();
while buf.len() > 0 && self.state.is_some() {
match self.next_state(buf) {
Ok((bytes, Decoded::Nothing)) => {
buf = &buf[bytes..]
}
Ok((bytes, Decoded::Trailer)) => {
buf = &buf[bytes..];
break
}
Ok((bytes, result)) => {
buf = &buf[bytes..];
return Ok(
(len-buf.len(),
// This transmute just casts the lifetime away. Since Rust only
// has SESE regions, this early return cannot be worked out and
// such that the borrow region of self includes the whole block.
// The explixit lifetimes in the function signature ensure that
// this is safe.
// ### NOTE
// To check that everything is sound, return the result without
// the match (e.g. `return Ok(self.next_state(buf)?)`). If
// it compiles the returned lifetime is correct.
unsafe {
mem::transmute::<Decoded, Decoded>(result)
}
))
}
Err(err) => return Err(err)
}
}
Ok((len-buf.len(), Decoded::Nothing))
}
/// Returns the data of the last extension that has been decoded.
pub fn last_ext(&self) -> (u8, &[u8], bool) {
(self.ext.0, &*self.ext.1, self.ext.2)
}
#[inline(always)]
/// Current frame info as a mutable ref.
pub fn current_frame_mut<'a>(&'a mut self) -> &'a mut Frame<'static> {
self.current.as_mut().unwrap()
}
#[inline(always)]
/// Current frame info as a ref.
pub fn current_frame<'a>(&'a self) -> &'a Frame<'static> {
self.current.as_ref().unwrap()
}
/// Width of the image
pub fn width(&self) -> u16 {
self.width
}
/// Height of the image
pub fn height(&self) -> u16 {
self.height
}
fn next_state<'a>(&'a mut self, buf: &[u8]) -> Result<(usize, Decoded<'a>), DecodingError> {
macro_rules! goto (
($n:expr, $state:expr) => ({
self.state = Some($state);
Ok(($n, Decoded::Nothing))
});
($state:expr) => ({
self.state = Some($state);
Ok((1, Decoded::Nothing))
});
($n:expr, $state:expr, emit $res:expr) => ({
self.state = Some($state);
Ok(($n, $res))
});
($state:expr, emit $res:expr) => ({
self.state = Some($state);
Ok((1, $res))
})
);
let b = buf[0];
// Driver should ensure that state is never None
let state = self.state.take().unwrap();
//println!("{:?}", state);
match state {
Magic(i, mut version) => if i < 6 {
version[i] = b;
goto!(Magic(i+1, version))
} else if &version[..3] == b"GIF" {
self.version = match &version[3..] {
b"87a" => "87a",
b"89a" => "89a",
_ => return Err(DecodingError::Format("unsupported GIF version"))
};
goto!(U16Byte1(U16Value::ScreenWidth, b))
} else {
Err(DecodingError::Format("malformed GIF header"))
},
U16(next) => goto!(U16Byte1(next, b)),
U16Byte1(next, value) => {
use self::U16Value::*;
let value = ((b as u16) << 8) | value as u16;
match (next, value) {
(ScreenWidth, width) => {
self.width = width;
goto!(U16(U16Value::ScreenHeight))
},
(ScreenHeight, height) => {
self.height = height;
goto!(Byte(ByteValue::GlobalFlags))
},
(Delay, delay) => {
self.ext.1.push(value as u8);
self.ext.1.push(b);
self.current_frame_mut().delay = delay;
goto!(Byte(ByteValue::TransparentIdx))
},
(ImageLeft, left) => {
self.current_frame_mut().left = left;
goto!(U16(U16Value::ImageTop))
},
(ImageTop, top) => {
self.current_frame_mut().top = top;
goto!(U16(U16Value::ImageWidth))
},
(ImageWidth, width) => {
self.current_frame_mut().width = width;
goto!(U16(U16Value::ImageHeight))
},
(ImageHeight, height) => {
self.current_frame_mut().height = height;
goto!(Byte(ByteValue::ImageFlags))
}
}
}
Byte(value) => {
use self::ByteValue::*;
match value {
GlobalFlags => {
let global_table = b & 0x80 != 0;
let entries = if global_table {
let entries = PLTE_CHANNELS*(1 << ((b & 0b111) + 1) as usize);
self.global_color_table.reserve_exact(entries);
entries
} else {
0usize
};
goto!(Byte(Background { table_size: entries }))
},
Background { table_size } => {
goto!(
Byte(AspectRatio { table_size: table_size }),
emit Decoded::BackgroundColor(b)
)
},
AspectRatio { table_size } => {
goto!(GlobalPalette(table_size))
},
ControlFlags => {
self.ext.1.push(b);
let control_flags = b;
if control_flags & 1 != 0 {
// Set to Some(...), gets overwritten later
self.current_frame_mut().transparent = Some(0)
}
self.current_frame_mut().needs_user_input =
control_flags & 0b10 != 0;
self.current_frame_mut().dispose = match DisposalMethod::from_u8(
(control_flags & 0b11100) >> 2
) {
Some(method) => method,
None => DisposalMethod::Any
};
goto!(U16(U16Value::Delay))
}
TransparentIdx => {
self.ext.1.push(b);
if let Some(ref mut idx) = self.current_frame_mut().transparent {
*idx = b
}
goto!(SkipBlock(0))
//goto!(AwaitBlockEnd)
}
ImageFlags => {
let local_table = (b & 0b1000_0000) != 0;
let interlaced = (b & 0b0100_0000) != 0;
let table_size = b & 0b0000_0111;
self.current_frame_mut().interlaced = interlaced;
if local_table {
let entries = PLTE_CHANNELS * (1 << (table_size + 1));
self.current_frame_mut().palette =
Some(Vec::with_capacity(entries));
goto!(LocalPalette(entries))
} else {
goto!(Byte(CodeSize))
}
},
CodeSize => goto!(LzwInit(b))
}
}
GlobalPalette(left) => {
let n = cmp::min(left, buf.len());
if left > 0 {
self.global_color_table.extend(buf[..n].iter().cloned());
goto!(n, GlobalPalette(left - n))
} else {
let idx = self.background_color[0];
match self.global_color_table.chunks(PLTE_CHANNELS).nth(idx as usize) {
Some(chunk) => for i in 0..PLTE_CHANNELS {
self.background_color[i] = chunk[i]
},
None => self.background_color[0] = 0
}
goto!(BlockStart(Block::from_u8(b)), emit Decoded::GlobalPalette(
mem::replace(&mut self.global_color_table, Vec::new())
))
}
}
BlockStart(type_) => {
use common::Block::*;
match type_ {
Some(Image) => {
self.add_frame();
goto!(U16Byte1(U16Value::ImageLeft, b), emit Decoded::BlockStart(Image))
}
Some(Extension) => goto!(ExtensionBlock(b), emit Decoded::BlockStart(Extension)),
Some(Trailer) => goto!(0, State::Trailer, emit Decoded::BlockStart(Trailer)),
None => {
return Err(DecodingError::Format(
"unknown block type encountered"
))}
}
}
BlockEnd(terminator) => {
if terminator == 0 {
if b == Block::Trailer as u8 {
goto!(0, BlockStart(Some(Block::Trailer)))
} else {
goto!(BlockStart(Block::from_u8(b)))
}
} else {
return Err(DecodingError::Format(
"expected block terminator not found"
))
}
}
ExtensionBlock(type_) => {
use common::Extension::*;
self.ext.0 = type_;
self.ext.1.clear();
self.ext.1.push(b);
if let Some(ext) = Extension::from_u8(type_) {
match ext {
Control => {
goto!(self.read_control_extension(b)?)
}
Text | Comment | Application => {
goto!(SkipBlock(b as usize))
}
}
} else {
return Err(DecodingError::Format(
"unknown extention block encountered"
))
}
}
SkipBlock(left) => {
let n = cmp::min(left, buf.len());
if left > 0 {
self.ext.1.push(b);
goto!(n, SkipBlock(left - n))
} else {
if b == 0 {
self.ext.2 = true;
goto!(BlockEnd(b), emit Decoded::BlockFinished(self.ext.0, &self.ext.1))
} else {
self.ext.2 = false;
goto!(SkipBlock(b as usize), emit Decoded::SubBlockFinished(self.ext.0,&self.ext.1))
}
}
}
LocalPalette(left) => {
let n = cmp::min(left, buf.len());
if left > 0 {
self.current_frame_mut().palette
.as_mut().unwrap().extend(buf[..n].iter().cloned());
goto!(n, LocalPalette(left - n))
} else {
goto!(LzwInit(b))
}
}
LzwInit(code_size) => {
// LZW spec: max 12 bits per code
if code_size > 11 {
return Err(DecodingError::Format(
"invalid minimal code size"
))
}
self.lzw_reader = Some(lzw::Decoder::new(lzw::LsbReader::new(), code_size));
goto!(DecodeSubBlock(b as usize), emit Decoded::Frame(self.current_frame_mut()))
}
DecodeSubBlock(left) => {
if left > 0 {
let n = cmp::min(left, buf.len());
let decoder = self.lzw_reader.as_mut().unwrap();
let (consumed, bytes) = decoder.decode_bytes(&buf[..n])?;
goto!(consumed, DecodeSubBlock(left - consumed), emit Decoded::Data(bytes))
} else if b != 0 { // decode next sub-block
goto!(DecodeSubBlock(b as usize))
} else {
// The end of the lzw stream is only reached if left == 0 and an additional call
// to `decode_bytes` results in an empty slice.
let decoder = self.lzw_reader.as_mut().unwrap();
let (_, bytes) = decoder.decode_bytes(&[])?;
if bytes.len() > 0 {
goto!(0, DecodeSubBlock(0), emit Decoded::Data(bytes))
} else {
// end of image data reached
self.current = None;
goto!(0, FrameDecoded, emit Decoded::DataEnd)
}
}
}
FrameDecoded => {
goto!(BlockEnd(b))
}
Trailer => {
self.state = None;
Ok((1, Decoded::Trailer))
//panic!("EOF {:?}", self)
}
}
}
fn read_control_extension(&mut self, b: u8) -> Result<State, DecodingError> {
self.add_frame();
self.ext.1.push(b);
if b != 4 {
return Err(DecodingError::Format(
"control extension has wrong length"
))
}
Ok(Byte(ByteValue::ControlFlags))
}
fn add_frame(&mut self) {
if self.current.is_none() {
self.current = Some(Frame::default())
}
}
}