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-rw-r--r--vendor/image/src/codecs/tiff.rs353
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diff --git a/vendor/image/src/codecs/tiff.rs b/vendor/image/src/codecs/tiff.rs
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+//! Decoding and Encoding of TIFF Images
+//!
+//! TIFF (Tagged Image File Format) is a versatile image format that supports
+//! lossless and lossy compression.
+//!
+//! # Related Links
+//! * <http://partners.adobe.com/public/developer/tiff/index.html> - The TIFF specification
+
+extern crate tiff;
+
+use std::convert::TryFrom;
+use std::io::{self, Cursor, Read, Seek, Write};
+use std::marker::PhantomData;
+use std::mem;
+
+use crate::color::{ColorType, ExtendedColorType};
+use crate::error::{
+ DecodingError, EncodingError, ImageError, ImageResult, LimitError, LimitErrorKind,
+ ParameterError, ParameterErrorKind, UnsupportedError, UnsupportedErrorKind,
+};
+use crate::image::{ImageDecoder, ImageEncoder, ImageFormat};
+use crate::utils;
+
+/// Decoder for TIFF images.
+pub struct TiffDecoder<R>
+where
+ R: Read + Seek,
+{
+ dimensions: (u32, u32),
+ color_type: ColorType,
+
+ // We only use an Option here so we can call with_limits on the decoder without moving.
+ inner: Option<tiff::decoder::Decoder<R>>,
+}
+
+impl<R> TiffDecoder<R>
+where
+ R: Read + Seek,
+{
+ /// Create a new TiffDecoder.
+ pub fn new(r: R) -> Result<TiffDecoder<R>, ImageError> {
+ let mut inner = tiff::decoder::Decoder::new(r).map_err(ImageError::from_tiff_decode)?;
+
+ let dimensions = inner.dimensions().map_err(ImageError::from_tiff_decode)?;
+ let color_type = inner.colortype().map_err(ImageError::from_tiff_decode)?;
+ match inner.find_tag_unsigned_vec::<u16>(tiff::tags::Tag::SampleFormat) {
+ Ok(Some(sample_formats)) => {
+ for format in sample_formats {
+ check_sample_format(format)?;
+ }
+ }
+ Ok(None) => { /* assume UInt format */ }
+ Err(other) => return Err(ImageError::from_tiff_decode(other)),
+ };
+
+ let color_type = match color_type {
+ tiff::ColorType::Gray(8) => ColorType::L8,
+ tiff::ColorType::Gray(16) => ColorType::L16,
+ tiff::ColorType::GrayA(8) => ColorType::La8,
+ tiff::ColorType::GrayA(16) => ColorType::La16,
+ tiff::ColorType::RGB(8) => ColorType::Rgb8,
+ tiff::ColorType::RGB(16) => ColorType::Rgb16,
+ tiff::ColorType::RGBA(8) => ColorType::Rgba8,
+ tiff::ColorType::RGBA(16) => ColorType::Rgba16,
+
+ tiff::ColorType::Palette(n) | tiff::ColorType::Gray(n) => {
+ return Err(err_unknown_color_type(n))
+ }
+ tiff::ColorType::GrayA(n) => return Err(err_unknown_color_type(n.saturating_mul(2))),
+ tiff::ColorType::RGB(n) => return Err(err_unknown_color_type(n.saturating_mul(3))),
+ tiff::ColorType::YCbCr(n) => return Err(err_unknown_color_type(n.saturating_mul(3))),
+ tiff::ColorType::RGBA(n) | tiff::ColorType::CMYK(n) => {
+ return Err(err_unknown_color_type(n.saturating_mul(4)))
+ }
+ };
+
+ Ok(TiffDecoder {
+ dimensions,
+ color_type,
+ inner: Some(inner),
+ })
+ }
+}
+
+fn check_sample_format(sample_format: u16) -> Result<(), ImageError> {
+ match tiff::tags::SampleFormat::from_u16(sample_format) {
+ Some(tiff::tags::SampleFormat::Uint) => Ok(()),
+ Some(other) => Err(ImageError::Unsupported(
+ UnsupportedError::from_format_and_kind(
+ ImageFormat::Tiff.into(),
+ UnsupportedErrorKind::GenericFeature(format!(
+ "Unhandled TIFF sample format {:?}",
+ other
+ )),
+ ),
+ )),
+ None => Err(ImageError::Decoding(DecodingError::from_format_hint(
+ ImageFormat::Tiff.into(),
+ ))),
+ }
+}
+
+fn err_unknown_color_type(value: u8) -> ImageError {
+ ImageError::Unsupported(UnsupportedError::from_format_and_kind(
+ ImageFormat::Tiff.into(),
+ UnsupportedErrorKind::Color(ExtendedColorType::Unknown(value)),
+ ))
+}
+
+impl ImageError {
+ fn from_tiff_decode(err: tiff::TiffError) -> ImageError {
+ match err {
+ tiff::TiffError::IoError(err) => ImageError::IoError(err),
+ err @ tiff::TiffError::FormatError(_)
+ | err @ tiff::TiffError::IntSizeError
+ | err @ tiff::TiffError::UsageError(_) => {
+ ImageError::Decoding(DecodingError::new(ImageFormat::Tiff.into(), err))
+ }
+ tiff::TiffError::UnsupportedError(desc) => {
+ ImageError::Unsupported(UnsupportedError::from_format_and_kind(
+ ImageFormat::Tiff.into(),
+ UnsupportedErrorKind::GenericFeature(desc.to_string()),
+ ))
+ }
+ tiff::TiffError::LimitsExceeded => {
+ ImageError::Limits(LimitError::from_kind(LimitErrorKind::InsufficientMemory))
+ }
+ }
+ }
+
+ fn from_tiff_encode(err: tiff::TiffError) -> ImageError {
+ match err {
+ tiff::TiffError::IoError(err) => ImageError::IoError(err),
+ err @ tiff::TiffError::FormatError(_)
+ | err @ tiff::TiffError::IntSizeError
+ | err @ tiff::TiffError::UsageError(_) => {
+ ImageError::Encoding(EncodingError::new(ImageFormat::Tiff.into(), err))
+ }
+ tiff::TiffError::UnsupportedError(desc) => {
+ ImageError::Unsupported(UnsupportedError::from_format_and_kind(
+ ImageFormat::Tiff.into(),
+ UnsupportedErrorKind::GenericFeature(desc.to_string()),
+ ))
+ }
+ tiff::TiffError::LimitsExceeded => {
+ ImageError::Limits(LimitError::from_kind(LimitErrorKind::InsufficientMemory))
+ }
+ }
+ }
+}
+
+/// Wrapper struct around a `Cursor<Vec<u8>>`
+pub struct TiffReader<R>(Cursor<Vec<u8>>, PhantomData<R>);
+impl<R> Read for TiffReader<R> {
+ fn read(&mut self, buf: &mut [u8]) -> io::Result<usize> {
+ self.0.read(buf)
+ }
+ fn read_to_end(&mut self, buf: &mut Vec<u8>) -> io::Result<usize> {
+ 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 + Seek> ImageDecoder<'a> for TiffDecoder<R> {
+ type Reader = TiffReader<R>;
+
+ fn dimensions(&self) -> (u32, u32) {
+ self.dimensions
+ }
+
+ fn color_type(&self) -> ColorType {
+ self.color_type
+ }
+
+ fn icc_profile(&mut self) -> Option<Vec<u8>> {
+ if let Some(decoder) = &mut self.inner {
+ decoder.get_tag_u8_vec(tiff::tags::Tag::Unknown(34675)).ok()
+ } else {
+ None
+ }
+ }
+
+ fn set_limits(&mut self, limits: crate::io::Limits) -> ImageResult<()> {
+ limits.check_support(&crate::io::LimitSupport::default())?;
+
+ let (width, height) = self.dimensions();
+ limits.check_dimensions(width, height)?;
+
+ let max_alloc = limits.max_alloc.unwrap_or(u64::MAX);
+ let max_intermediate_alloc = max_alloc.saturating_sub(self.total_bytes());
+
+ let mut tiff_limits: tiff::decoder::Limits = Default::default();
+ tiff_limits.decoding_buffer_size =
+ usize::try_from(max_alloc - max_intermediate_alloc).unwrap_or(usize::MAX);
+ tiff_limits.intermediate_buffer_size =
+ usize::try_from(max_intermediate_alloc).unwrap_or(usize::MAX);
+ tiff_limits.ifd_value_size = tiff_limits.intermediate_buffer_size;
+ self.inner = Some(self.inner.take().unwrap().with_limits(tiff_limits));
+
+ Ok(())
+ }
+
+ fn into_reader(self) -> ImageResult<Self::Reader> {
+ let buf = match self
+ .inner
+ .unwrap()
+ .read_image()
+ .map_err(ImageError::from_tiff_decode)?
+ {
+ tiff::decoder::DecodingResult::U8(v) => v,
+ tiff::decoder::DecodingResult::U16(v) => utils::vec_copy_to_u8(&v),
+ tiff::decoder::DecodingResult::U32(v) => utils::vec_copy_to_u8(&v),
+ tiff::decoder::DecodingResult::U64(v) => utils::vec_copy_to_u8(&v),
+ tiff::decoder::DecodingResult::I8(v) => utils::vec_copy_to_u8(&v),
+ tiff::decoder::DecodingResult::I16(v) => utils::vec_copy_to_u8(&v),
+ tiff::decoder::DecodingResult::I32(v) => utils::vec_copy_to_u8(&v),
+ tiff::decoder::DecodingResult::I64(v) => utils::vec_copy_to_u8(&v),
+ tiff::decoder::DecodingResult::F32(v) => utils::vec_copy_to_u8(&v),
+ tiff::decoder::DecodingResult::F64(v) => utils::vec_copy_to_u8(&v),
+ };
+
+ Ok(TiffReader(Cursor::new(buf), PhantomData))
+ }
+
+ fn read_image(self, buf: &mut [u8]) -> ImageResult<()> {
+ assert_eq!(u64::try_from(buf.len()), Ok(self.total_bytes()));
+ match self
+ .inner
+ .unwrap()
+ .read_image()
+ .map_err(ImageError::from_tiff_decode)?
+ {
+ tiff::decoder::DecodingResult::U8(v) => {
+ buf.copy_from_slice(&v);
+ }
+ tiff::decoder::DecodingResult::U16(v) => {
+ buf.copy_from_slice(bytemuck::cast_slice(&v));
+ }
+ tiff::decoder::DecodingResult::U32(v) => {
+ buf.copy_from_slice(bytemuck::cast_slice(&v));
+ }
+ tiff::decoder::DecodingResult::U64(v) => {
+ buf.copy_from_slice(bytemuck::cast_slice(&v));
+ }
+ tiff::decoder::DecodingResult::I8(v) => {
+ buf.copy_from_slice(bytemuck::cast_slice(&v));
+ }
+ tiff::decoder::DecodingResult::I16(v) => {
+ buf.copy_from_slice(bytemuck::cast_slice(&v));
+ }
+ tiff::decoder::DecodingResult::I32(v) => {
+ buf.copy_from_slice(bytemuck::cast_slice(&v));
+ }
+ tiff::decoder::DecodingResult::I64(v) => {
+ buf.copy_from_slice(bytemuck::cast_slice(&v));
+ }
+ tiff::decoder::DecodingResult::F32(v) => {
+ buf.copy_from_slice(bytemuck::cast_slice(&v));
+ }
+ tiff::decoder::DecodingResult::F64(v) => {
+ buf.copy_from_slice(bytemuck::cast_slice(&v));
+ }
+ }
+ Ok(())
+ }
+}
+
+/// Encoder for tiff images
+pub struct TiffEncoder<W> {
+ w: W,
+}
+
+// Utility to simplify and deduplicate error handling during 16-bit encoding.
+fn u8_slice_as_u16(buf: &[u8]) -> ImageResult<&[u16]> {
+ bytemuck::try_cast_slice(buf).map_err(|err| {
+ // If the buffer is not aligned or the correct length for a u16 slice, err.
+ //
+ // `bytemuck::PodCastError` of bytemuck-1.2.0 does not implement
+ // `Error` and `Display` trait.
+ // See <https://github.com/Lokathor/bytemuck/issues/22>.
+ ImageError::Parameter(ParameterError::from_kind(ParameterErrorKind::Generic(
+ format!("{:?}", err),
+ )))
+ })
+}
+
+impl<W: Write + Seek> TiffEncoder<W> {
+ /// Create a new encoder that writes its output to `w`
+ pub fn new(w: W) -> TiffEncoder<W> {
+ TiffEncoder { w }
+ }
+
+ /// Encodes the image `image` that has dimensions `width` and `height` and `ColorType` `c`.
+ ///
+ /// 16-bit types assume the buffer is native endian.
+ pub fn encode(self, data: &[u8], width: u32, height: u32, color: ColorType) -> ImageResult<()> {
+ let mut encoder =
+ tiff::encoder::TiffEncoder::new(self.w).map_err(ImageError::from_tiff_encode)?;
+ match color {
+ ColorType::L8 => {
+ encoder.write_image::<tiff::encoder::colortype::Gray8>(width, height, data)
+ }
+ ColorType::Rgb8 => {
+ encoder.write_image::<tiff::encoder::colortype::RGB8>(width, height, data)
+ }
+ ColorType::Rgba8 => {
+ encoder.write_image::<tiff::encoder::colortype::RGBA8>(width, height, data)
+ }
+ ColorType::L16 => encoder.write_image::<tiff::encoder::colortype::Gray16>(
+ width,
+ height,
+ u8_slice_as_u16(data)?,
+ ),
+ ColorType::Rgb16 => encoder.write_image::<tiff::encoder::colortype::RGB16>(
+ width,
+ height,
+ u8_slice_as_u16(data)?,
+ ),
+ ColorType::Rgba16 => encoder.write_image::<tiff::encoder::colortype::RGBA16>(
+ width,
+ height,
+ u8_slice_as_u16(data)?,
+ ),
+ _ => {
+ return Err(ImageError::Unsupported(
+ UnsupportedError::from_format_and_kind(
+ ImageFormat::Tiff.into(),
+ UnsupportedErrorKind::Color(color.into()),
+ ),
+ ))
+ }
+ }
+ .map_err(ImageError::from_tiff_encode)?;
+
+ Ok(())
+ }
+}
+
+impl<W: Write + Seek> ImageEncoder for TiffEncoder<W> {
+ fn write_image(
+ self,
+ buf: &[u8],
+ width: u32,
+ height: u32,
+ color_type: ColorType,
+ ) -> ImageResult<()> {
+ self.encode(buf, width, height, color_type)
+ }
+}