From a990de90fe41456a23e58bd087d2f107d321f3a1 Mon Sep 17 00:00:00 2001 From: Valentin Popov Date: Fri, 19 Jul 2024 16:37:58 +0400 Subject: Deleted vendor folder --- vendor/image/src/codecs/pnm/decoder.rs | 1272 -------------------------------- 1 file changed, 1272 deletions(-) delete mode 100644 vendor/image/src/codecs/pnm/decoder.rs (limited to 'vendor/image/src/codecs/pnm/decoder.rs') diff --git a/vendor/image/src/codecs/pnm/decoder.rs b/vendor/image/src/codecs/pnm/decoder.rs deleted file mode 100644 index a495871..0000000 --- a/vendor/image/src/codecs/pnm/decoder.rs +++ /dev/null @@ -1,1272 +0,0 @@ -use std::convert::TryFrom; -use std::convert::TryInto; -use std::error; -use std::fmt::{self, Display}; -use std::io::{self, BufRead, Cursor, Read}; -use std::marker::PhantomData; -use std::mem; -use std::num::ParseIntError; -use std::str::{self, FromStr}; - -use super::{ArbitraryHeader, ArbitraryTuplType, BitmapHeader, GraymapHeader, PixmapHeader}; -use super::{HeaderRecord, PnmHeader, PnmSubtype, SampleEncoding}; -use crate::color::{ColorType, ExtendedColorType}; -use crate::error::{ - DecodingError, ImageError, ImageResult, UnsupportedError, UnsupportedErrorKind, -}; -use crate::image::{self, ImageDecoder, ImageFormat}; -use crate::utils; - -use byteorder::{BigEndian, ByteOrder, NativeEndian}; - -/// All errors that can occur when attempting to parse a PNM -#[derive(Debug, Clone)] -enum DecoderError { - /// PNM's "P[123456]" signature wrong or missing - PnmMagicInvalid([u8; 2]), - /// Couldn't parse the specified string as an integer from the specified source - UnparsableValue(ErrorDataSource, String, ParseIntError), - - /// More than the exactly one allowed plane specified by the format - NonAsciiByteInHeader(u8), - /// The PAM header contained a non-ASCII byte - NonAsciiLineInPamHeader, - /// A sample string contained a non-ASCII byte - NonAsciiSample, - - /// The byte after the P7 magic was not 0x0A NEWLINE - NotNewlineAfterP7Magic(u8), - /// The PNM header had too few lines - UnexpectedPnmHeaderEnd, - - /// The specified line was specified twice - HeaderLineDuplicated(PnmHeaderLine), - /// The line with the specified ID was not understood - HeaderLineUnknown(String), - /// At least one of the required lines were missing from the header (are `None` here) - /// - /// Same names as [`PnmHeaderLine`](enum.PnmHeaderLine.html) - #[allow(missing_docs)] - HeaderLineMissing { - height: Option, - width: Option, - depth: Option, - maxval: Option, - }, - - /// Not enough data was provided to the Decoder to decode the image - InputTooShort, - /// Sample raster contained unexpected byte - UnexpectedByteInRaster(u8), - /// Specified sample was out of bounds (e.g. >1 in B&W) - SampleOutOfBounds(u8), - /// The image's maxval exceeds 0xFFFF - MaxvalTooBig(u32), - - /// The specified tuple type supports restricted depths and maxvals, those restrictions were not met - InvalidDepthOrMaxval { - tuple_type: ArbitraryTuplType, - depth: u32, - maxval: u32, - }, - /// The specified tuple type supports restricted depths, those restrictions were not met - InvalidDepth { - tuple_type: ArbitraryTuplType, - depth: u32, - }, - /// The tuple type was not recognised by the parser - TupleTypeUnrecognised, - - /// Overflowed the specified value when parsing - Overflow, -} - -impl Display for DecoderError { - fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { - match self { - DecoderError::PnmMagicInvalid(magic) => f.write_fmt(format_args!( - "Expected magic constant for PNM: P1..P7, got [{:#04X?}, {:#04X?}]", - magic[0], magic[1] - )), - DecoderError::UnparsableValue(src, data, err) => { - f.write_fmt(format_args!("Error parsing {:?} as {}: {}", data, src, err)) - } - - DecoderError::NonAsciiByteInHeader(c) => { - f.write_fmt(format_args!("Non-ASCII character {:#04X?} in header", c)) - } - DecoderError::NonAsciiLineInPamHeader => f.write_str("Non-ASCII line in PAM header"), - DecoderError::NonAsciiSample => { - f.write_str("Non-ASCII character where sample value was expected") - } - - DecoderError::NotNewlineAfterP7Magic(c) => f.write_fmt(format_args!( - "Expected newline after P7 magic, got {:#04X?}", - c - )), - DecoderError::UnexpectedPnmHeaderEnd => f.write_str("Unexpected end of PNM header"), - - DecoderError::HeaderLineDuplicated(line) => { - f.write_fmt(format_args!("Duplicate {} line", line)) - } - DecoderError::HeaderLineUnknown(identifier) => f.write_fmt(format_args!( - "Unknown header line with identifier {:?}", - identifier - )), - DecoderError::HeaderLineMissing { - height, - width, - depth, - maxval, - } => f.write_fmt(format_args!( - "Missing header line: have height={:?}, width={:?}, depth={:?}, maxval={:?}", - height, width, depth, maxval - )), - - DecoderError::InputTooShort => { - f.write_str("Not enough data was provided to the Decoder to decode the image") - } - DecoderError::UnexpectedByteInRaster(c) => f.write_fmt(format_args!( - "Unexpected character {:#04X?} within sample raster", - c - )), - DecoderError::SampleOutOfBounds(val) => { - f.write_fmt(format_args!("Sample value {} outside of bounds", val)) - } - DecoderError::MaxvalTooBig(maxval) => { - f.write_fmt(format_args!("Image MAXVAL exceeds {}: {}", 0xFFFF, maxval)) - } - - DecoderError::InvalidDepthOrMaxval { - tuple_type, - depth, - maxval, - } => f.write_fmt(format_args!( - "Invalid depth ({}) or maxval ({}) for tuple type {}", - depth, - maxval, - tuple_type.name() - )), - DecoderError::InvalidDepth { tuple_type, depth } => f.write_fmt(format_args!( - "Invalid depth ({}) for tuple type {}", - depth, - tuple_type.name() - )), - DecoderError::TupleTypeUnrecognised => f.write_str("Tuple type not recognized"), - DecoderError::Overflow => f.write_str("Overflow when parsing value"), - } - } -} - -/// Note: should `pnm` be extracted into a separate crate, -/// this will need to be hidden until that crate hits version `1.0`. -impl From for ImageError { - fn from(e: DecoderError) -> ImageError { - ImageError::Decoding(DecodingError::new(ImageFormat::Pnm.into(), e)) - } -} - -impl error::Error for DecoderError { - fn source(&self) -> Option<&(dyn error::Error + 'static)> { - match self { - DecoderError::UnparsableValue(_, _, err) => Some(err), - _ => None, - } - } -} - -/// Single-value lines in a PNM header -#[derive(Debug, Copy, Clone, Hash, PartialEq, Eq, PartialOrd, Ord)] -enum PnmHeaderLine { - /// "HEIGHT" - Height, - /// "WIDTH" - Width, - /// "DEPTH" - Depth, - /// "MAXVAL", a.k.a. `maxwhite` - Maxval, -} - -impl Display for PnmHeaderLine { - fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { - f.write_str(match self { - PnmHeaderLine::Height => "HEIGHT", - PnmHeaderLine::Width => "WIDTH", - PnmHeaderLine::Depth => "DEPTH", - PnmHeaderLine::Maxval => "MAXVAL", - }) - } -} - -/// Single-value lines in a PNM header -#[derive(Debug, Copy, Clone, Hash, PartialEq, Eq, PartialOrd, Ord)] -enum ErrorDataSource { - /// One of the header lines - Line(PnmHeaderLine), - /// Value in the preamble - Preamble, - /// Sample/pixel data - Sample, -} - -impl Display for ErrorDataSource { - fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { - match self { - ErrorDataSource::Line(l) => l.fmt(f), - ErrorDataSource::Preamble => f.write_str("number in preamble"), - ErrorDataSource::Sample => f.write_str("sample"), - } - } -} - -/// Dynamic representation, represents all decodable (sample, depth) combinations. -#[derive(Clone, Copy)] -enum TupleType { - PbmBit, - BWBit, - GrayU8, - GrayU16, - RGBU8, - RGBU16, -} - -trait Sample { - fn bytelen(width: u32, height: u32, samples: u32) -> ImageResult; - fn from_bytes(bytes: &[u8], row_size: usize, output_buf: &mut [u8]) -> ImageResult<()>; - fn from_ascii(reader: &mut dyn Read, output_buf: &mut [u8]) -> ImageResult<()>; -} - -struct U8; -struct U16; -struct PbmBit; -struct BWBit; - -trait DecodableImageHeader { - fn tuple_type(&self) -> ImageResult; -} - -/// PNM decoder -pub struct PnmDecoder { - reader: R, - header: PnmHeader, - tuple: TupleType, -} - -impl PnmDecoder { - /// Create a new decoder that decodes from the stream ```read``` - pub fn new(mut buffered_read: R) -> ImageResult> { - let magic = buffered_read.read_magic_constant()?; - - let subtype = match magic { - [b'P', b'1'] => PnmSubtype::Bitmap(SampleEncoding::Ascii), - [b'P', b'2'] => PnmSubtype::Graymap(SampleEncoding::Ascii), - [b'P', b'3'] => PnmSubtype::Pixmap(SampleEncoding::Ascii), - [b'P', b'4'] => PnmSubtype::Bitmap(SampleEncoding::Binary), - [b'P', b'5'] => PnmSubtype::Graymap(SampleEncoding::Binary), - [b'P', b'6'] => PnmSubtype::Pixmap(SampleEncoding::Binary), - [b'P', b'7'] => PnmSubtype::ArbitraryMap, - _ => return Err(DecoderError::PnmMagicInvalid(magic).into()), - }; - - let decoder = match subtype { - PnmSubtype::Bitmap(enc) => PnmDecoder::read_bitmap_header(buffered_read, enc), - PnmSubtype::Graymap(enc) => PnmDecoder::read_graymap_header(buffered_read, enc), - PnmSubtype::Pixmap(enc) => PnmDecoder::read_pixmap_header(buffered_read, enc), - PnmSubtype::ArbitraryMap => PnmDecoder::read_arbitrary_header(buffered_read), - }?; - - if utils::check_dimension_overflow( - decoder.dimensions().0, - decoder.dimensions().1, - decoder.color_type().bytes_per_pixel(), - ) { - return Err(ImageError::Unsupported( - UnsupportedError::from_format_and_kind( - ImageFormat::Pnm.into(), - UnsupportedErrorKind::GenericFeature(format!( - "Image dimensions ({}x{}) are too large", - decoder.dimensions().0, - decoder.dimensions().1 - )), - ), - )); - } - - Ok(decoder) - } - - /// Extract the reader and header after an image has been read. - pub fn into_inner(self) -> (R, PnmHeader) { - (self.reader, self.header) - } - - fn read_bitmap_header(mut reader: R, encoding: SampleEncoding) -> ImageResult> { - let header = reader.read_bitmap_header(encoding)?; - Ok(PnmDecoder { - reader, - tuple: TupleType::PbmBit, - header: PnmHeader { - decoded: HeaderRecord::Bitmap(header), - encoded: None, - }, - }) - } - - fn read_graymap_header(mut reader: R, encoding: SampleEncoding) -> ImageResult> { - let header = reader.read_graymap_header(encoding)?; - let tuple_type = header.tuple_type()?; - Ok(PnmDecoder { - reader, - tuple: tuple_type, - header: PnmHeader { - decoded: HeaderRecord::Graymap(header), - encoded: None, - }, - }) - } - - fn read_pixmap_header(mut reader: R, encoding: SampleEncoding) -> ImageResult> { - let header = reader.read_pixmap_header(encoding)?; - let tuple_type = header.tuple_type()?; - Ok(PnmDecoder { - reader, - tuple: tuple_type, - header: PnmHeader { - decoded: HeaderRecord::Pixmap(header), - encoded: None, - }, - }) - } - - fn read_arbitrary_header(mut reader: R) -> ImageResult> { - let header = reader.read_arbitrary_header()?; - let tuple_type = header.tuple_type()?; - Ok(PnmDecoder { - reader, - tuple: tuple_type, - header: PnmHeader { - decoded: HeaderRecord::Arbitrary(header), - encoded: None, - }, - }) - } -} - -trait HeaderReader: BufRead { - /// Reads the two magic constant bytes - fn read_magic_constant(&mut self) -> ImageResult<[u8; 2]> { - let mut magic: [u8; 2] = [0, 0]; - self.read_exact(&mut magic)?; - Ok(magic) - } - - /// Reads a string as well as a single whitespace after it, ignoring comments - fn read_next_string(&mut self) -> ImageResult { - let mut bytes = Vec::new(); - - // pair input bytes with a bool mask to remove comments - let mark_comments = self.bytes().scan(true, |partof, read| { - let byte = match read { - Err(err) => return Some((*partof, Err(err))), - Ok(byte) => byte, - }; - let cur_enabled = *partof && byte != b'#'; - let next_enabled = cur_enabled || (byte == b'\r' || byte == b'\n'); - *partof = next_enabled; - Some((cur_enabled, Ok(byte))) - }); - - for (_, byte) in mark_comments.filter(|e| e.0) { - match byte { - Ok(b'\t') | Ok(b'\n') | Ok(b'\x0b') | Ok(b'\x0c') | Ok(b'\r') | Ok(b' ') => { - if !bytes.is_empty() { - break; // We're done as we already have some content - } - } - Ok(byte) if !byte.is_ascii() => { - return Err(DecoderError::NonAsciiByteInHeader(byte).into()) - } - Ok(byte) => { - bytes.push(byte); - } - Err(_) => break, - } - } - - if bytes.is_empty() { - return Err(ImageError::IoError(io::ErrorKind::UnexpectedEof.into())); - } - - if !bytes.as_slice().is_ascii() { - // We have only filled the buffer with characters for which `byte.is_ascii()` holds. - unreachable!("Non-ASCII character should have returned sooner") - } - - let string = String::from_utf8(bytes) - // We checked the precondition ourselves a few lines before, `bytes.as_slice().is_ascii()`. - .unwrap_or_else(|_| unreachable!("Only ASCII characters should be decoded")); - - Ok(string) - } - - /// Read the next line - fn read_next_line(&mut self) -> ImageResult { - let mut buffer = String::new(); - self.read_line(&mut buffer)?; - Ok(buffer) - } - - fn read_next_u32(&mut self) -> ImageResult { - let s = self.read_next_string()?; - s.parse::() - .map_err(|err| DecoderError::UnparsableValue(ErrorDataSource::Preamble, s, err).into()) - } - - fn read_bitmap_header(&mut self, encoding: SampleEncoding) -> ImageResult { - let width = self.read_next_u32()?; - let height = self.read_next_u32()?; - Ok(BitmapHeader { - encoding, - width, - height, - }) - } - - fn read_graymap_header(&mut self, encoding: SampleEncoding) -> ImageResult { - self.read_pixmap_header(encoding).map( - |PixmapHeader { - encoding, - width, - height, - maxval, - }| GraymapHeader { - encoding, - width, - height, - maxwhite: maxval, - }, - ) - } - - fn read_pixmap_header(&mut self, encoding: SampleEncoding) -> ImageResult { - let width = self.read_next_u32()?; - let height = self.read_next_u32()?; - let maxval = self.read_next_u32()?; - Ok(PixmapHeader { - encoding, - width, - height, - maxval, - }) - } - - fn read_arbitrary_header(&mut self) -> ImageResult { - fn parse_single_value_line( - line_val: &mut Option, - rest: &str, - line: PnmHeaderLine, - ) -> ImageResult<()> { - if line_val.is_some() { - Err(DecoderError::HeaderLineDuplicated(line).into()) - } else { - let v = rest.trim().parse().map_err(|err| { - DecoderError::UnparsableValue(ErrorDataSource::Line(line), rest.to_owned(), err) - })?; - *line_val = Some(v); - Ok(()) - } - } - - match self.bytes().next() { - None => return Err(ImageError::IoError(io::ErrorKind::UnexpectedEof.into())), - Some(Err(io)) => return Err(ImageError::IoError(io)), - Some(Ok(b'\n')) => (), - Some(Ok(c)) => return Err(DecoderError::NotNewlineAfterP7Magic(c).into()), - } - - let mut line = String::new(); - let mut height: Option = None; - let mut width: Option = None; - let mut depth: Option = None; - let mut maxval: Option = None; - let mut tupltype: Option = None; - loop { - line.truncate(0); - let len = self.read_line(&mut line)?; - if len == 0 { - return Err(DecoderError::UnexpectedPnmHeaderEnd.into()); - } - if line.as_bytes()[0] == b'#' { - continue; - } - if !line.is_ascii() { - return Err(DecoderError::NonAsciiLineInPamHeader.into()); - } - #[allow(deprecated)] - let (identifier, rest) = line - .trim_left() - .split_at(line.find(char::is_whitespace).unwrap_or(line.len())); - match identifier { - "ENDHDR" => break, - "HEIGHT" => parse_single_value_line(&mut height, rest, PnmHeaderLine::Height)?, - "WIDTH" => parse_single_value_line(&mut width, rest, PnmHeaderLine::Width)?, - "DEPTH" => parse_single_value_line(&mut depth, rest, PnmHeaderLine::Depth)?, - "MAXVAL" => parse_single_value_line(&mut maxval, rest, PnmHeaderLine::Maxval)?, - "TUPLTYPE" => { - let identifier = rest.trim(); - if tupltype.is_some() { - let appended = tupltype.take().map(|mut v| { - v.push(' '); - v.push_str(identifier); - v - }); - tupltype = appended; - } else { - tupltype = Some(identifier.to_string()); - } - } - _ => return Err(DecoderError::HeaderLineUnknown(identifier.to_string()).into()), - } - } - - let (h, w, d, m) = match (height, width, depth, maxval) { - (Some(h), Some(w), Some(d), Some(m)) => (h, w, d, m), - _ => { - return Err(DecoderError::HeaderLineMissing { - height, - width, - depth, - maxval, - } - .into()) - } - }; - - let tupltype = match tupltype { - None => None, - Some(ref t) if t == "BLACKANDWHITE" => Some(ArbitraryTuplType::BlackAndWhite), - Some(ref t) if t == "BLACKANDWHITE_ALPHA" => { - Some(ArbitraryTuplType::BlackAndWhiteAlpha) - } - Some(ref t) if t == "GRAYSCALE" => Some(ArbitraryTuplType::Grayscale), - Some(ref t) if t == "GRAYSCALE_ALPHA" => Some(ArbitraryTuplType::GrayscaleAlpha), - Some(ref t) if t == "RGB" => Some(ArbitraryTuplType::RGB), - Some(ref t) if t == "RGB_ALPHA" => Some(ArbitraryTuplType::RGBAlpha), - Some(other) => Some(ArbitraryTuplType::Custom(other)), - }; - - Ok(ArbitraryHeader { - height: h, - width: w, - depth: d, - maxval: m, - tupltype, - }) - } -} - -impl HeaderReader for R where R: BufRead {} - -/// Wrapper struct around a `Cursor>` -pub struct PnmReader(Cursor>, PhantomData); -impl Read for PnmReader { - fn read(&mut self, buf: &mut [u8]) -> io::Result { - self.0.read(buf) - } - fn read_to_end(&mut self, buf: &mut Vec) -> io::Result { - if self.0.position() == 0 && buf.is_empty() { - mem::swap(buf, self.0.get_mut()); - Ok(buf.len()) - } else { - self.0.read_to_end(buf) - } - } -} - -impl<'a, R: 'a + Read> ImageDecoder<'a> for PnmDecoder { - type Reader = PnmReader; - - fn dimensions(&self) -> (u32, u32) { - (self.header.width(), self.header.height()) - } - - fn color_type(&self) -> ColorType { - match self.tuple { - TupleType::PbmBit => ColorType::L8, - TupleType::BWBit => ColorType::L8, - TupleType::GrayU8 => ColorType::L8, - TupleType::GrayU16 => ColorType::L16, - TupleType::RGBU8 => ColorType::Rgb8, - TupleType::RGBU16 => ColorType::Rgb16, - } - } - - fn original_color_type(&self) -> ExtendedColorType { - match self.tuple { - TupleType::PbmBit => ExtendedColorType::L1, - TupleType::BWBit => ExtendedColorType::L1, - TupleType::GrayU8 => ExtendedColorType::L8, - TupleType::GrayU16 => ExtendedColorType::L16, - TupleType::RGBU8 => ExtendedColorType::Rgb8, - TupleType::RGBU16 => ExtendedColorType::Rgb16, - } - } - - fn into_reader(self) -> ImageResult { - Ok(PnmReader( - Cursor::new(image::decoder_to_vec(self)?), - PhantomData, - )) - } - - fn read_image(mut self, buf: &mut [u8]) -> ImageResult<()> { - assert_eq!(u64::try_from(buf.len()), Ok(self.total_bytes())); - match self.tuple { - TupleType::PbmBit => self.read_samples::(1, buf), - TupleType::BWBit => self.read_samples::(1, buf), - TupleType::RGBU8 => self.read_samples::(3, buf), - TupleType::RGBU16 => self.read_samples::(3, buf), - TupleType::GrayU8 => self.read_samples::(1, buf), - TupleType::GrayU16 => self.read_samples::(1, buf), - } - } -} - -impl PnmDecoder { - fn read_samples(&mut self, components: u32, buf: &mut [u8]) -> ImageResult<()> { - match self.subtype().sample_encoding() { - SampleEncoding::Binary => { - let width = self.header.width(); - let height = self.header.height(); - let bytecount = S::bytelen(width, height, components)?; - - let mut bytes = vec![]; - self.reader - .by_ref() - // This conversion is potentially lossy but unlikely and in that case we error - // later anyways. - .take(bytecount as u64) - .read_to_end(&mut bytes)?; - if bytes.len() != bytecount { - return Err(DecoderError::InputTooShort.into()); - } - - let width: usize = width.try_into().map_err(|_| DecoderError::Overflow)?; - let components: usize = - components.try_into().map_err(|_| DecoderError::Overflow)?; - let row_size = width - .checked_mul(components) - .ok_or(DecoderError::Overflow)?; - - S::from_bytes(&bytes, row_size, buf) - } - SampleEncoding::Ascii => self.read_ascii::(buf), - } - } - - fn read_ascii(&mut self, output_buf: &mut [u8]) -> ImageResult<()> { - Basic::from_ascii(&mut self.reader, output_buf) - } - - /// Get the pnm subtype, depending on the magic constant contained in the header - pub fn subtype(&self) -> PnmSubtype { - self.header.subtype() - } -} - -fn read_separated_ascii>(reader: &mut dyn Read) -> ImageResult -where - T::Err: Display, -{ - let is_separator = |v: &u8| matches! { *v, b'\t' | b'\n' | b'\x0b' | b'\x0c' | b'\r' | b' ' }; - - let token = reader - .bytes() - .skip_while(|v| v.as_ref().ok().map(is_separator).unwrap_or(false)) - .take_while(|v| v.as_ref().ok().map(|c| !is_separator(c)).unwrap_or(false)) - .collect::, _>>()?; - - if !token.is_ascii() { - return Err(DecoderError::NonAsciiSample.into()); - } - - let string = str::from_utf8(&token) - // We checked the precondition ourselves a few lines before with `token.is_ascii()`. - .unwrap_or_else(|_| unreachable!("Only ASCII characters should be decoded")); - - string.parse().map_err(|err| { - DecoderError::UnparsableValue(ErrorDataSource::Sample, string.to_owned(), err).into() - }) -} - -impl Sample for U8 { - fn bytelen(width: u32, height: u32, samples: u32) -> ImageResult { - Ok((width * height * samples) as usize) - } - - fn from_bytes(bytes: &[u8], _row_size: usize, output_buf: &mut [u8]) -> ImageResult<()> { - output_buf.copy_from_slice(bytes); - Ok(()) - } - - fn from_ascii(reader: &mut dyn Read, output_buf: &mut [u8]) -> ImageResult<()> { - for b in output_buf { - *b = read_separated_ascii(reader)?; - } - Ok(()) - } -} - -impl Sample for U16 { - fn bytelen(width: u32, height: u32, samples: u32) -> ImageResult { - Ok((width * height * samples * 2) as usize) - } - - fn from_bytes(bytes: &[u8], _row_size: usize, output_buf: &mut [u8]) -> ImageResult<()> { - output_buf.copy_from_slice(bytes); - for chunk in output_buf.chunks_exact_mut(2) { - let v = BigEndian::read_u16(chunk); - NativeEndian::write_u16(chunk, v); - } - Ok(()) - } - - fn from_ascii(reader: &mut dyn Read, output_buf: &mut [u8]) -> ImageResult<()> { - for chunk in output_buf.chunks_exact_mut(2) { - let v = read_separated_ascii::(reader)?; - NativeEndian::write_u16(chunk, v); - } - Ok(()) - } -} - -// The image is encoded in rows of bits, high order bits first. Any bits beyond the row bits should -// be ignored. Also, contrary to rgb, black pixels are encoded as a 1 while white is 0. This will -// need to be reversed for the grayscale output. -impl Sample for PbmBit { - fn bytelen(width: u32, height: u32, samples: u32) -> ImageResult { - let count = width * samples; - let linelen = (count / 8) + ((count % 8) != 0) as u32; - Ok((linelen * height) as usize) - } - - fn from_bytes(bytes: &[u8], row_size: usize, output_buf: &mut [u8]) -> ImageResult<()> { - let mut expanded = utils::expand_bits(1, row_size.try_into().unwrap(), bytes); - for b in expanded.iter_mut() { - *b = !*b; - } - output_buf.copy_from_slice(&expanded); - Ok(()) - } - - fn from_ascii(reader: &mut dyn Read, output_buf: &mut [u8]) -> ImageResult<()> { - let mut bytes = reader.bytes(); - for b in output_buf { - loop { - let byte = bytes - .next() - .ok_or_else::(|| DecoderError::InputTooShort.into())??; - match byte { - b'\t' | b'\n' | b'\x0b' | b'\x0c' | b'\r' | b' ' => continue, - b'0' => *b = 255, - b'1' => *b = 0, - c => return Err(DecoderError::UnexpectedByteInRaster(c).into()), - } - break; - } - } - - Ok(()) - } -} - -// Encoded just like a normal U8 but we check the values. -impl Sample for BWBit { - fn bytelen(width: u32, height: u32, samples: u32) -> ImageResult { - U8::bytelen(width, height, samples) - } - - fn from_bytes(bytes: &[u8], row_size: usize, output_buf: &mut [u8]) -> ImageResult<()> { - U8::from_bytes(bytes, row_size, output_buf)?; - if let Some(val) = output_buf.iter().find(|&val| *val > 1) { - return Err(DecoderError::SampleOutOfBounds(*val).into()); - } - Ok(()) - } - - fn from_ascii(_reader: &mut dyn Read, _output_buf: &mut [u8]) -> ImageResult<()> { - unreachable!("BW bits from anymaps are never encoded as ASCII") - } -} - -impl DecodableImageHeader for BitmapHeader { - fn tuple_type(&self) -> ImageResult { - Ok(TupleType::PbmBit) - } -} - -impl DecodableImageHeader for GraymapHeader { - fn tuple_type(&self) -> ImageResult { - match self.maxwhite { - v if v <= 0xFF => Ok(TupleType::GrayU8), - v if v <= 0xFFFF => Ok(TupleType::GrayU16), - _ => Err(DecoderError::MaxvalTooBig(self.maxwhite).into()), - } - } -} - -impl DecodableImageHeader for PixmapHeader { - fn tuple_type(&self) -> ImageResult { - match self.maxval { - v if v <= 0xFF => Ok(TupleType::RGBU8), - v if v <= 0xFFFF => Ok(TupleType::RGBU16), - _ => Err(DecoderError::MaxvalTooBig(self.maxval).into()), - } - } -} - -impl DecodableImageHeader for ArbitraryHeader { - fn tuple_type(&self) -> ImageResult { - match self.tupltype { - None if self.depth == 1 => Ok(TupleType::GrayU8), - None if self.depth == 2 => Err(ImageError::Unsupported( - UnsupportedError::from_format_and_kind( - ImageFormat::Pnm.into(), - UnsupportedErrorKind::Color(ExtendedColorType::La8), - ), - )), - None if self.depth == 3 => Ok(TupleType::RGBU8), - None if self.depth == 4 => Err(ImageError::Unsupported( - UnsupportedError::from_format_and_kind( - ImageFormat::Pnm.into(), - UnsupportedErrorKind::Color(ExtendedColorType::Rgba8), - ), - )), - - Some(ArbitraryTuplType::BlackAndWhite) if self.maxval == 1 && self.depth == 1 => { - Ok(TupleType::BWBit) - } - Some(ArbitraryTuplType::BlackAndWhite) => Err(DecoderError::InvalidDepthOrMaxval { - tuple_type: ArbitraryTuplType::BlackAndWhite, - maxval: self.maxval, - depth: self.depth, - } - .into()), - - Some(ArbitraryTuplType::Grayscale) if self.depth == 1 && self.maxval <= 0xFF => { - Ok(TupleType::GrayU8) - } - Some(ArbitraryTuplType::Grayscale) if self.depth <= 1 && self.maxval <= 0xFFFF => { - Ok(TupleType::GrayU16) - } - Some(ArbitraryTuplType::Grayscale) => Err(DecoderError::InvalidDepthOrMaxval { - tuple_type: ArbitraryTuplType::Grayscale, - maxval: self.maxval, - depth: self.depth, - } - .into()), - - Some(ArbitraryTuplType::RGB) if self.depth == 3 && self.maxval <= 0xFF => { - Ok(TupleType::RGBU8) - } - Some(ArbitraryTuplType::RGB) if self.depth == 3 && self.maxval <= 0xFFFF => { - Ok(TupleType::RGBU16) - } - Some(ArbitraryTuplType::RGB) => Err(DecoderError::InvalidDepth { - tuple_type: ArbitraryTuplType::RGB, - depth: self.depth, - } - .into()), - - Some(ArbitraryTuplType::BlackAndWhiteAlpha) => Err(ImageError::Unsupported( - UnsupportedError::from_format_and_kind( - ImageFormat::Pnm.into(), - UnsupportedErrorKind::GenericFeature(format!( - "Color type {}", - ArbitraryTuplType::BlackAndWhiteAlpha.name() - )), - ), - )), - Some(ArbitraryTuplType::GrayscaleAlpha) => Err(ImageError::Unsupported( - UnsupportedError::from_format_and_kind( - ImageFormat::Pnm.into(), - UnsupportedErrorKind::Color(ExtendedColorType::La8), - ), - )), - Some(ArbitraryTuplType::RGBAlpha) => Err(ImageError::Unsupported( - UnsupportedError::from_format_and_kind( - ImageFormat::Pnm.into(), - UnsupportedErrorKind::Color(ExtendedColorType::Rgba8), - ), - )), - Some(ArbitraryTuplType::Custom(ref custom)) => Err(ImageError::Unsupported( - UnsupportedError::from_format_and_kind( - ImageFormat::Pnm.into(), - UnsupportedErrorKind::GenericFeature(format!("Tuple type {:?}", custom)), - ), - )), - None => Err(DecoderError::TupleTypeUnrecognised.into()), - } - } -} - -#[cfg(test)] -mod tests { - use super::*; - /// Tests reading of a valid blackandwhite pam - #[test] - fn pam_blackandwhite() { - let pamdata = b"P7 -WIDTH 4 -HEIGHT 4 -DEPTH 1 -MAXVAL 1 -TUPLTYPE BLACKANDWHITE -# Comment line -ENDHDR -\x01\x00\x00\x01\x01\x00\x00\x01\x01\x00\x00\x01\x01\x00\x00\x01"; - let decoder = PnmDecoder::new(&pamdata[..]).unwrap(); - assert_eq!(decoder.color_type(), ColorType::L8); - assert_eq!(decoder.original_color_type(), ExtendedColorType::L1); - assert_eq!(decoder.dimensions(), (4, 4)); - assert_eq!(decoder.subtype(), PnmSubtype::ArbitraryMap); - - let mut image = vec![0; decoder.total_bytes() as usize]; - decoder.read_image(&mut image).unwrap(); - assert_eq!( - image, - vec![ - 0x01, 0x00, 0x00, 0x01, 0x01, 0x00, 0x00, 0x01, 0x01, 0x00, 0x00, 0x01, 0x01, 0x00, - 0x00, 0x01 - ] - ); - match PnmDecoder::new(&pamdata[..]).unwrap().into_inner() { - ( - _, - PnmHeader { - decoded: - HeaderRecord::Arbitrary(ArbitraryHeader { - width: 4, - height: 4, - maxval: 1, - depth: 1, - tupltype: Some(ArbitraryTuplType::BlackAndWhite), - }), - encoded: _, - }, - ) => (), - _ => panic!("Decoded header is incorrect"), - } - } - - /// Tests reading of a valid grayscale pam - #[test] - fn pam_grayscale() { - let pamdata = b"P7 -WIDTH 4 -HEIGHT 4 -DEPTH 1 -MAXVAL 255 -TUPLTYPE GRAYSCALE -# Comment line -ENDHDR -\xde\xad\xbe\xef\xde\xad\xbe\xef\xde\xad\xbe\xef\xde\xad\xbe\xef"; - let decoder = PnmDecoder::new(&pamdata[..]).unwrap(); - assert_eq!(decoder.color_type(), ColorType::L8); - assert_eq!(decoder.dimensions(), (4, 4)); - assert_eq!(decoder.subtype(), PnmSubtype::ArbitraryMap); - - let mut image = vec![0; decoder.total_bytes() as usize]; - decoder.read_image(&mut image).unwrap(); - assert_eq!( - image, - vec![ - 0xde, 0xad, 0xbe, 0xef, 0xde, 0xad, 0xbe, 0xef, 0xde, 0xad, 0xbe, 0xef, 0xde, 0xad, - 0xbe, 0xef - ] - ); - match PnmDecoder::new(&pamdata[..]).unwrap().into_inner() { - ( - _, - PnmHeader { - decoded: - HeaderRecord::Arbitrary(ArbitraryHeader { - width: 4, - height: 4, - depth: 1, - maxval: 255, - tupltype: Some(ArbitraryTuplType::Grayscale), - }), - encoded: _, - }, - ) => (), - _ => panic!("Decoded header is incorrect"), - } - } - - /// Tests reading of a valid rgb pam - #[test] - fn pam_rgb() { - let pamdata = b"P7 -# Comment line -MAXVAL 255 -TUPLTYPE RGB -DEPTH 3 -WIDTH 2 -HEIGHT 2 -ENDHDR -\xde\xad\xbe\xef\xde\xad\xbe\xef\xde\xad\xbe\xef"; - let decoder = PnmDecoder::new(&pamdata[..]).unwrap(); - assert_eq!(decoder.color_type(), ColorType::Rgb8); - assert_eq!(decoder.dimensions(), (2, 2)); - assert_eq!(decoder.subtype(), PnmSubtype::ArbitraryMap); - - let mut image = vec![0; decoder.total_bytes() as usize]; - decoder.read_image(&mut image).unwrap(); - assert_eq!( - image, - vec![0xde, 0xad, 0xbe, 0xef, 0xde, 0xad, 0xbe, 0xef, 0xde, 0xad, 0xbe, 0xef] - ); - match PnmDecoder::new(&pamdata[..]).unwrap().into_inner() { - ( - _, - PnmHeader { - decoded: - HeaderRecord::Arbitrary(ArbitraryHeader { - maxval: 255, - tupltype: Some(ArbitraryTuplType::RGB), - depth: 3, - width: 2, - height: 2, - }), - encoded: _, - }, - ) => (), - _ => panic!("Decoded header is incorrect"), - } - } - - #[test] - fn pbm_binary() { - // The data contains two rows of the image (each line is padded to the full byte). For - // comments on its format, see documentation of `impl SampleType for PbmBit`. - let pbmbinary = [&b"P4 6 2\n"[..], &[0b01101100 as u8, 0b10110111]].concat(); - let decoder = PnmDecoder::new(&pbmbinary[..]).unwrap(); - assert_eq!(decoder.color_type(), ColorType::L8); - assert_eq!(decoder.original_color_type(), ExtendedColorType::L1); - assert_eq!(decoder.dimensions(), (6, 2)); - assert_eq!( - decoder.subtype(), - PnmSubtype::Bitmap(SampleEncoding::Binary) - ); - let mut image = vec![0; decoder.total_bytes() as usize]; - decoder.read_image(&mut image).unwrap(); - assert_eq!(image, vec![255, 0, 0, 255, 0, 0, 0, 255, 0, 0, 255, 0]); - match PnmDecoder::new(&pbmbinary[..]).unwrap().into_inner() { - ( - _, - PnmHeader { - decoded: - HeaderRecord::Bitmap(BitmapHeader { - encoding: SampleEncoding::Binary, - width: 6, - height: 2, - }), - encoded: _, - }, - ) => (), - _ => panic!("Decoded header is incorrect"), - } - } - - /// A previous infinite loop. - #[test] - fn pbm_binary_ascii_termination() { - use std::io::{BufReader, Cursor, Error, ErrorKind, Read, Result}; - struct FailRead(Cursor<&'static [u8]>); - - impl Read for FailRead { - fn read(&mut self, buf: &mut [u8]) -> Result { - match self.0.read(buf) { - Ok(n) if n > 0 => Ok(n), - _ => Err(Error::new( - ErrorKind::BrokenPipe, - "Simulated broken pipe error", - )), - } - } - } - - let pbmbinary = BufReader::new(FailRead(Cursor::new(b"P1 1 1\n"))); - - let decoder = PnmDecoder::new(pbmbinary).unwrap(); - let mut image = vec![0; decoder.total_bytes() as usize]; - decoder - .read_image(&mut image) - .expect_err("Image is malformed"); - } - - #[test] - fn pbm_ascii() { - // The data contains two rows of the image (each line is padded to the full byte). For - // comments on its format, see documentation of `impl SampleType for PbmBit`. Tests all - // whitespace characters that should be allowed (the 6 characters according to POSIX). - let pbmbinary = b"P1 6 2\n 0 1 1 0 1 1\n1 0 1 1 0\t\n\x0b\x0c\r1"; - let decoder = PnmDecoder::new(&pbmbinary[..]).unwrap(); - assert_eq!(decoder.color_type(), ColorType::L8); - assert_eq!(decoder.original_color_type(), ExtendedColorType::L1); - assert_eq!(decoder.dimensions(), (6, 2)); - assert_eq!(decoder.subtype(), PnmSubtype::Bitmap(SampleEncoding::Ascii)); - - let mut image = vec![0; decoder.total_bytes() as usize]; - decoder.read_image(&mut image).unwrap(); - assert_eq!(image, vec![255, 0, 0, 255, 0, 0, 0, 255, 0, 0, 255, 0]); - match PnmDecoder::new(&pbmbinary[..]).unwrap().into_inner() { - ( - _, - PnmHeader { - decoded: - HeaderRecord::Bitmap(BitmapHeader { - encoding: SampleEncoding::Ascii, - width: 6, - height: 2, - }), - encoded: _, - }, - ) => (), - _ => panic!("Decoded header is incorrect"), - } - } - - #[test] - fn pbm_ascii_nospace() { - // The data contains two rows of the image (each line is padded to the full byte). Notably, - // it is completely within specification for the ascii data not to contain separating - // whitespace for the pbm format or any mix. - let pbmbinary = b"P1 6 2\n011011101101"; - let decoder = PnmDecoder::new(&pbmbinary[..]).unwrap(); - assert_eq!(decoder.color_type(), ColorType::L8); - assert_eq!(decoder.original_color_type(), ExtendedColorType::L1); - assert_eq!(decoder.dimensions(), (6, 2)); - assert_eq!(decoder.subtype(), PnmSubtype::Bitmap(SampleEncoding::Ascii)); - - let mut image = vec![0; decoder.total_bytes() as usize]; - decoder.read_image(&mut image).unwrap(); - assert_eq!(image, vec![255, 0, 0, 255, 0, 0, 0, 255, 0, 0, 255, 0]); - match PnmDecoder::new(&pbmbinary[..]).unwrap().into_inner() { - ( - _, - PnmHeader { - decoded: - HeaderRecord::Bitmap(BitmapHeader { - encoding: SampleEncoding::Ascii, - width: 6, - height: 2, - }), - encoded: _, - }, - ) => (), - _ => panic!("Decoded header is incorrect"), - } - } - - #[test] - fn pgm_binary() { - // The data contains two rows of the image (each line is padded to the full byte). For - // comments on its format, see documentation of `impl SampleType for PbmBit`. - let elements = (0..16).collect::>(); - let pbmbinary = [&b"P5 4 4 255\n"[..], &elements].concat(); - let decoder = PnmDecoder::new(&pbmbinary[..]).unwrap(); - assert_eq!(decoder.color_type(), ColorType::L8); - assert_eq!(decoder.dimensions(), (4, 4)); - assert_eq!( - decoder.subtype(), - PnmSubtype::Graymap(SampleEncoding::Binary) - ); - let mut image = vec![0; decoder.total_bytes() as usize]; - decoder.read_image(&mut image).unwrap(); - assert_eq!(image, elements); - match PnmDecoder::new(&pbmbinary[..]).unwrap().into_inner() { - ( - _, - PnmHeader { - decoded: - HeaderRecord::Graymap(GraymapHeader { - encoding: SampleEncoding::Binary, - width: 4, - height: 4, - maxwhite: 255, - }), - encoded: _, - }, - ) => (), - _ => panic!("Decoded header is incorrect"), - } - } - - #[test] - fn pgm_ascii() { - // The data contains two rows of the image (each line is padded to the full byte). For - // comments on its format, see documentation of `impl SampleType for PbmBit`. - let pbmbinary = b"P2 4 4 255\n 0 1 2 3 4 5 6 7 8 9 10 11 12 13 14 15"; - let decoder = PnmDecoder::new(&pbmbinary[..]).unwrap(); - assert_eq!(decoder.color_type(), ColorType::L8); - assert_eq!(decoder.dimensions(), (4, 4)); - assert_eq!( - decoder.subtype(), - PnmSubtype::Graymap(SampleEncoding::Ascii) - ); - let mut image = vec![0; decoder.total_bytes() as usize]; - decoder.read_image(&mut image).unwrap(); - assert_eq!(image, (0..16).collect::>()); - match PnmDecoder::new(&pbmbinary[..]).unwrap().into_inner() { - ( - _, - PnmHeader { - decoded: - HeaderRecord::Graymap(GraymapHeader { - encoding: SampleEncoding::Ascii, - width: 4, - height: 4, - maxwhite: 255, - }), - encoded: _, - }, - ) => (), - _ => panic!("Decoded header is incorrect"), - } - } - - #[test] - fn dimension_overflow() { - let pamdata = b"P7 -# Comment line -MAXVAL 255 -TUPLTYPE RGB -DEPTH 3 -WIDTH 4294967295 -HEIGHT 4294967295 -ENDHDR -\xde\xad\xbe\xef\xde\xad\xbe\xef\xde\xad\xbe\xef"; - - assert!(PnmDecoder::new(&pamdata[..]).is_err()); - } - - #[test] - fn issue_1508() { - let _ = crate::load_from_memory(b"P391919 16999 1 1 9 919 16999 1 9999 999* 99999 N"); - } - - #[test] - fn issue_1616_overflow() { - let data = vec![ - 80, 54, 10, 52, 50, 57, 52, 56, 50, 57, 52, 56, 35, 56, 10, 52, 10, 48, 10, 12, 12, 56, - ]; - // Validate: we have a header. Note: we might already calculate that this will fail but - // then we could not return information about the header to the caller. - let decoder = PnmDecoder::new(&data[..]).unwrap(); - let mut image = vec![0; decoder.total_bytes() as usize]; - let _ = decoder.read_image(&mut image); - } -} -- cgit v1.2.3