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authorValentin Popov <valentin@popov.link>2024-01-08 00:21:28 +0300
committerValentin Popov <valentin@popov.link>2024-01-08 00:21:28 +0300
commit1b6a04ca5504955c571d1c97504fb45ea0befee4 (patch)
tree7579f518b23313e8a9748a88ab6173d5e030b227 /vendor/image/src/codecs/avif/encoder.rs
parent5ecd8cf2cba827454317368b68571df0d13d7842 (diff)
downloadfparkan-1b6a04ca5504955c571d1c97504fb45ea0befee4.tar.xz
fparkan-1b6a04ca5504955c571d1c97504fb45ea0befee4.zip
Initial vendor packages
Signed-off-by: Valentin Popov <valentin@popov.link>
Diffstat (limited to 'vendor/image/src/codecs/avif/encoder.rs')
-rw-r--r--vendor/image/src/codecs/avif/encoder.rs274
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+//! Encoding of AVIF images.
+///
+/// The [AVIF] specification defines an image derivative of the AV1 bitstream, an open video codec.
+///
+/// [AVIF]: https://aomediacodec.github.io/av1-avif/
+use std::borrow::Cow;
+use std::cmp::min;
+use std::io::Write;
+
+use crate::buffer::ConvertBuffer;
+use crate::color::{FromColor, Luma, LumaA, Rgb, Rgba};
+use crate::error::{
+ EncodingError, ParameterError, ParameterErrorKind, UnsupportedError, UnsupportedErrorKind,
+};
+use crate::{ColorType, ImageBuffer, ImageEncoder, ImageFormat, Pixel};
+use crate::{ImageError, ImageResult};
+
+use bytemuck::{try_cast_slice, try_cast_slice_mut, Pod, PodCastError};
+use num_traits::Zero;
+use ravif::{Encoder, Img, RGB8, RGBA8};
+use rgb::AsPixels;
+
+/// AVIF Encoder.
+///
+/// Writes one image into the chosen output.
+pub struct AvifEncoder<W> {
+ inner: W,
+ encoder: Encoder,
+}
+
+/// An enumeration over supported AVIF color spaces
+#[derive(Debug, Copy, Clone, PartialEq, Eq)]
+#[non_exhaustive]
+pub enum ColorSpace {
+ /// sRGB colorspace
+ Srgb,
+ /// BT.709 colorspace
+ Bt709,
+}
+
+impl ColorSpace {
+ fn to_ravif(self) -> ravif::ColorSpace {
+ match self {
+ Self::Srgb => ravif::ColorSpace::RGB,
+ Self::Bt709 => ravif::ColorSpace::YCbCr,
+ }
+ }
+}
+
+enum RgbColor<'buf> {
+ Rgb8(Img<&'buf [RGB8]>),
+ Rgba8(Img<&'buf [RGBA8]>),
+}
+
+impl<W: Write> AvifEncoder<W> {
+ /// Create a new encoder that writes its output to `w`.
+ pub fn new(w: W) -> Self {
+ AvifEncoder::new_with_speed_quality(w, 4, 80) // `cavif` uses these defaults
+ }
+
+ /// Create a new encoder with specified speed and quality, that writes its output to `w`.
+ /// `speed` accepts a value in the range 0-10, where 0 is the slowest and 10 is the fastest.
+ /// `quality` accepts a value in the range 0-100, where 0 is the worst and 100 is the best.
+ pub fn new_with_speed_quality(w: W, speed: u8, quality: u8) -> Self {
+ // Clamp quality and speed to range
+ let quality = min(quality, 100);
+ let speed = min(speed, 10);
+
+ let encoder = Encoder::new()
+ .with_quality(f32::from(quality))
+ .with_alpha_quality(f32::from(quality))
+ .with_speed(speed);
+
+ AvifEncoder { inner: w, encoder }
+ }
+
+ /// Encode with the specified `color_space`.
+ pub fn with_colorspace(mut self, color_space: ColorSpace) -> Self {
+ self.encoder = self
+ .encoder
+ .with_internal_color_space(color_space.to_ravif());
+ self
+ }
+
+ /// Configures `rayon` thread pool size.
+ /// The default `None` is to use all threads in the default `rayon` thread pool.
+ pub fn with_num_threads(mut self, num_threads: Option<usize>) -> Self {
+ self.encoder = self.encoder.with_num_threads(num_threads);
+ self
+ }
+}
+
+impl<W: Write> ImageEncoder for AvifEncoder<W> {
+ /// Encode image data with the indicated color type.
+ ///
+ /// The encoder currently requires all data to be RGBA8, it will be converted internally if
+ /// necessary. When data is suitably aligned, i.e. u16 channels to two bytes, then the
+ /// conversion may be more efficient.
+ fn write_image(
+ mut self,
+ data: &[u8],
+ width: u32,
+ height: u32,
+ color: ColorType,
+ ) -> ImageResult<()> {
+ self.set_color(color);
+ // `ravif` needs strongly typed data so let's convert. We can either use a temporarily
+ // owned version in our own buffer or zero-copy if possible by using the input buffer.
+ // This requires going through `rgb`.
+ let mut fallback = vec![]; // This vector is used if we need to do a color conversion.
+ let result = match Self::encode_as_img(&mut fallback, data, width, height, color)? {
+ RgbColor::Rgb8(buffer) => self.encoder.encode_rgb(buffer),
+ RgbColor::Rgba8(buffer) => self.encoder.encode_rgba(buffer),
+ };
+ let data = result.map_err(|err| {
+ ImageError::Encoding(EncodingError::new(ImageFormat::Avif.into(), err))
+ })?;
+ self.inner.write_all(&data.avif_file)?;
+ Ok(())
+ }
+}
+
+impl<W: Write> AvifEncoder<W> {
+ // Does not currently do anything. Mirrors behaviour of old config function.
+ fn set_color(&mut self, _color: ColorType) {
+ // self.config.color_space = ColorSpace::RGB;
+ }
+
+ fn encode_as_img<'buf>(
+ fallback: &'buf mut Vec<u8>,
+ data: &'buf [u8],
+ width: u32,
+ height: u32,
+ color: ColorType,
+ ) -> ImageResult<RgbColor<'buf>> {
+ // Error wrapping utility for color dependent buffer dimensions.
+ fn try_from_raw<P: Pixel + 'static>(
+ data: &[P::Subpixel],
+ width: u32,
+ height: u32,
+ ) -> ImageResult<ImageBuffer<P, &[P::Subpixel]>> {
+ ImageBuffer::from_raw(width, height, data).ok_or_else(|| {
+ ImageError::Parameter(ParameterError::from_kind(
+ ParameterErrorKind::DimensionMismatch,
+ ))
+ })
+ }
+
+ // Convert to target color type using few buffer allocations.
+ fn convert_into<'buf, P>(
+ buf: &'buf mut Vec<u8>,
+ image: ImageBuffer<P, &[P::Subpixel]>,
+ ) -> Img<&'buf [RGBA8]>
+ where
+ P: Pixel + 'static,
+ Rgba<u8>: FromColor<P>,
+ {
+ let (width, height) = image.dimensions();
+ // TODO: conversion re-using the target buffer?
+ let image: ImageBuffer<Rgba<u8>, _> = image.convert();
+ *buf = image.into_raw();
+ Img::new(buf.as_pixels(), width as usize, height as usize)
+ }
+
+ // Cast the input slice using few buffer allocations if possible.
+ // In particular try not to allocate if the caller did the infallible reverse.
+ fn cast_buffer<Channel>(buf: &[u8]) -> ImageResult<Cow<[Channel]>>
+ where
+ Channel: Pod + Zero,
+ {
+ match try_cast_slice(buf) {
+ Ok(slice) => Ok(Cow::Borrowed(slice)),
+ Err(PodCastError::OutputSliceWouldHaveSlop) => Err(ImageError::Parameter(
+ ParameterError::from_kind(ParameterErrorKind::DimensionMismatch),
+ )),
+ Err(PodCastError::TargetAlignmentGreaterAndInputNotAligned) => {
+ // Sad, but let's allocate.
+ // bytemuck checks alignment _before_ slop but size mismatch before this..
+ if buf.len() % std::mem::size_of::<Channel>() != 0 {
+ Err(ImageError::Parameter(ParameterError::from_kind(
+ ParameterErrorKind::DimensionMismatch,
+ )))
+ } else {
+ let len = buf.len() / std::mem::size_of::<Channel>();
+ let mut data = vec![Channel::zero(); len];
+ let view = try_cast_slice_mut::<_, u8>(data.as_mut_slice()).unwrap();
+ view.copy_from_slice(buf);
+ Ok(Cow::Owned(data))
+ }
+ }
+ Err(err) => {
+ // Are you trying to encode a ZST??
+ Err(ImageError::Parameter(ParameterError::from_kind(
+ ParameterErrorKind::Generic(format!("{:?}", err)),
+ )))
+ }
+ }
+ }
+
+ match color {
+ ColorType::Rgb8 => {
+ // ravif doesn't do any checks but has some asserts, so we do the checks.
+ let img = try_from_raw::<Rgb<u8>>(data, width, height)?;
+ // Now, internally ravif uses u32 but it takes usize. We could do some checked
+ // conversion but instead we use that a non-empty image must be addressable.
+ if img.pixels().len() == 0 {
+ return Err(ImageError::Parameter(ParameterError::from_kind(
+ ParameterErrorKind::DimensionMismatch,
+ )));
+ }
+
+ Ok(RgbColor::Rgb8(Img::new(
+ rgb::AsPixels::as_pixels(data),
+ width as usize,
+ height as usize,
+ )))
+ }
+ ColorType::Rgba8 => {
+ // ravif doesn't do any checks but has some asserts, so we do the checks.
+ let img = try_from_raw::<Rgba<u8>>(data, width, height)?;
+ // Now, internally ravif uses u32 but it takes usize. We could do some checked
+ // conversion but instead we use that a non-empty image must be addressable.
+ if img.pixels().len() == 0 {
+ return Err(ImageError::Parameter(ParameterError::from_kind(
+ ParameterErrorKind::DimensionMismatch,
+ )));
+ }
+
+ Ok(RgbColor::Rgba8(Img::new(
+ rgb::AsPixels::as_pixels(data),
+ width as usize,
+ height as usize,
+ )))
+ }
+ // we need a separate buffer..
+ ColorType::L8 => {
+ let image = try_from_raw::<Luma<u8>>(data, width, height)?;
+ Ok(RgbColor::Rgba8(convert_into(fallback, image)))
+ }
+ ColorType::La8 => {
+ let image = try_from_raw::<LumaA<u8>>(data, width, height)?;
+ Ok(RgbColor::Rgba8(convert_into(fallback, image)))
+ }
+ // we need to really convert data..
+ ColorType::L16 => {
+ let buffer = cast_buffer(data)?;
+ let image = try_from_raw::<Luma<u16>>(&buffer, width, height)?;
+ Ok(RgbColor::Rgba8(convert_into(fallback, image)))
+ }
+ ColorType::La16 => {
+ let buffer = cast_buffer(data)?;
+ let image = try_from_raw::<LumaA<u16>>(&buffer, width, height)?;
+ Ok(RgbColor::Rgba8(convert_into(fallback, image)))
+ }
+ ColorType::Rgb16 => {
+ let buffer = cast_buffer(data)?;
+ let image = try_from_raw::<Rgb<u16>>(&buffer, width, height)?;
+ Ok(RgbColor::Rgba8(convert_into(fallback, image)))
+ }
+ ColorType::Rgba16 => {
+ let buffer = cast_buffer(data)?;
+ let image = try_from_raw::<Rgba<u16>>(&buffer, width, height)?;
+ Ok(RgbColor::Rgba8(convert_into(fallback, image)))
+ }
+ // for cases we do not support at all?
+ _ => Err(ImageError::Unsupported(
+ UnsupportedError::from_format_and_kind(
+ ImageFormat::Avif.into(),
+ UnsupportedErrorKind::Color(color.into()),
+ ),
+ )),
+ }
+ }
+}