use std::io::Read; // TODO: can be removed once https://github.com/rust-lang/rust/issues/74985 is stable use bytemuck::{cast_slice_mut, Pod}; use crate::consts::{ QOI_HEADER_SIZE, QOI_OP_DIFF, QOI_OP_INDEX, QOI_OP_LUMA, QOI_OP_RGB, QOI_OP_RGBA, QOI_OP_RUN, QOI_PADDING, QOI_PADDING_SIZE, }; use crate::error::{Error, Result}; use crate::header::Header; use crate::pixel::{Pixel, SupportedChannels}; use crate::types::Channels; use crate::utils::{cold, unlikely}; const QOI_OP_INDEX_END: u8 = QOI_OP_INDEX | 0x3f; const QOI_OP_RUN_END: u8 = QOI_OP_RUN | 0x3d; // <- note, 0x3d (not 0x3f) const QOI_OP_DIFF_END: u8 = QOI_OP_DIFF | 0x3f; const QOI_OP_LUMA_END: u8 = QOI_OP_LUMA | 0x3f; #[inline] fn qoi_decode_impl_slice( data: &[u8], out: &mut [u8], ) -> Result where Pixel: SupportedChannels, [u8; N]: Pod, { let mut pixels = cast_slice_mut::<_, [u8; N]>(out); let data_len = data.len(); let mut data = data; let mut index = [Pixel::::new(); 256]; let mut px = Pixel::::new().with_a(0xff); while let [px_out, ptail @ ..] = pixels { pixels = ptail; match data { [b1 @ QOI_OP_INDEX..=QOI_OP_INDEX_END, dtail @ ..] => { px = index[*b1 as usize]; *px_out = px.into(); data = dtail; continue; } [QOI_OP_RGB, r, g, b, dtail @ ..] => { px.update_rgb(*r, *g, *b); data = dtail; } [QOI_OP_RGBA, r, g, b, a, dtail @ ..] if RGBA => { px.update_rgba(*r, *g, *b, *a); data = dtail; } [b1 @ QOI_OP_RUN..=QOI_OP_RUN_END, dtail @ ..] => { *px_out = px.into(); let run = ((b1 & 0x3f) as usize).min(pixels.len()); let (phead, ptail) = pixels.split_at_mut(run); // can't panic phead.fill(px.into()); pixels = ptail; data = dtail; continue; } [b1 @ QOI_OP_DIFF..=QOI_OP_DIFF_END, dtail @ ..] => { px.update_diff(*b1); data = dtail; } [b1 @ QOI_OP_LUMA..=QOI_OP_LUMA_END, b2, dtail @ ..] => { px.update_luma(*b1, *b2); data = dtail; } _ => { cold(); if unlikely(data.len() < QOI_PADDING_SIZE) { return Err(Error::UnexpectedBufferEnd); // TODO: remove InputDataSize err } } } index[px.hash_index() as usize] = px; *px_out = px.into(); } if unlikely(data.len() < QOI_PADDING_SIZE) { return Err(Error::UnexpectedBufferEnd); } else if unlikely(data[..QOI_PADDING_SIZE] != QOI_PADDING) { return Err(Error::InvalidPadding); } Ok(data_len.saturating_sub(data.len()).saturating_sub(QOI_PADDING_SIZE)) } #[inline] fn qoi_decode_impl_slice_all( data: &[u8], out: &mut [u8], channels: u8, src_channels: u8, ) -> Result { match (channels, src_channels) { (3, 3) => qoi_decode_impl_slice::<3, false>(data, out), (3, 4) => qoi_decode_impl_slice::<3, true>(data, out), (4, 3) => qoi_decode_impl_slice::<4, false>(data, out), (4, 4) => qoi_decode_impl_slice::<4, true>(data, out), _ => { cold(); Err(Error::InvalidChannels { channels }) } } } #[inline] pub fn qoi_decode_to_buf(buf: impl AsMut<[u8]>, data: impl AsRef<[u8]>) -> Result
{ let mut decoder = QoiDecoder::new(&data)?; decoder.decode_to_buf(buf)?; Ok(*decoder.header()) } #[inline] pub fn qoi_decode_to_vec(data: impl AsRef<[u8]>) -> Result<(Header, Vec)> { let mut decoder = QoiDecoder::new(&data)?; let out = decoder.decode_to_vec()?; Ok((*decoder.header(), out)) } #[inline] pub fn qoi_decode_header(data: impl AsRef<[u8]>) -> Result
{ Header::decode(data) } #[derive(Clone)] pub struct QoiDecoder<'a> { data: &'a [u8], header: Header, channels: Channels, } impl<'a> QoiDecoder<'a> { #[inline] pub fn new(data: &'a (impl AsRef<[u8]> + ?Sized)) -> Result { let data = data.as_ref(); let header = Header::decode(data)?; let data = &data[QOI_HEADER_SIZE..]; // can't panic Ok(Self { data, header, channels: header.channels }) } #[inline] pub const fn with_channels(mut self, channels: Channels) -> Self { self.channels = channels; self } #[inline] pub const fn channels(&self) -> Channels { self.channels } #[inline] pub const fn header(&self) -> &Header { &self.header } #[inline] pub const fn data(self) -> &'a [u8] { self.data } #[inline] pub fn decode_to_buf(&mut self, mut buf: impl AsMut<[u8]>) -> Result { let buf = buf.as_mut(); let size = self.header.n_pixels() * self.channels.as_u8() as usize; if unlikely(buf.len() < size) { return Err(Error::OutputBufferTooSmall { size: buf.len(), required: size }); } let n_read = qoi_decode_impl_slice_all( self.data, buf, self.channels.as_u8(), self.header.channels.as_u8(), )?; self.data = &self.data[n_read..]; // can't panic Ok(size) } #[inline] pub fn decode_to_vec(&mut self) -> Result> { let mut out = vec![0; self.header.n_pixels() * self.channels.as_u8() as usize]; self.decode_to_buf(&mut out).map(|_| out) } } #[inline] fn qoi_decode_impl_stream( data: &mut R, out: &mut [u8], ) -> Result<()> where Pixel: SupportedChannels, [u8; N]: Pod, { let mut pixels = cast_slice_mut::<_, [u8; N]>(out); let mut index = [Pixel::::new(); 256]; let mut px = Pixel::::new().with_a(0xff); while let [px_out, ptail @ ..] = pixels { pixels = ptail; let mut p = [0]; data.read_exact(&mut p)?; let [b1] = p; match b1 { QOI_OP_INDEX..=QOI_OP_INDEX_END => { px = index[b1 as usize]; *px_out = px.into(); continue; } QOI_OP_RGB => { let mut p = [0; 3]; data.read_exact(&mut p)?; px.update_rgb(p[0], p[1], p[2]); } QOI_OP_RGBA if RGBA => { let mut p = [0; 4]; data.read_exact(&mut p)?; px.update_rgba(p[0], p[1], p[2], p[3]); } QOI_OP_RUN..=QOI_OP_RUN_END => { *px_out = px.into(); let run = ((b1 & 0x3f) as usize).min(pixels.len()); let (phead, ptail) = pixels.split_at_mut(run); // can't panic phead.fill(px.into()); pixels = ptail; continue; } QOI_OP_DIFF..=QOI_OP_DIFF_END => { px.update_diff(b1); } QOI_OP_LUMA..=QOI_OP_LUMA_END => { let mut p = [0]; data.read_exact(&mut p)?; let [b2] = p; px.update_luma(b1, b2); } _ => { cold(); } } index[px.hash_index() as usize] = px; *px_out = px.into(); } let mut p = [0_u8; QOI_PADDING_SIZE]; data.read_exact(&mut p)?; if unlikely(p != QOI_PADDING) { return Err(Error::InvalidPadding); } Ok(()) } #[inline] fn qoi_decode_impl_stream_all( data: &mut R, out: &mut [u8], channels: u8, src_channels: u8, ) -> Result<()> { match (channels, src_channels) { (3, 3) => qoi_decode_impl_stream::<_, 3, false>(data, out), (3, 4) => qoi_decode_impl_stream::<_, 3, true>(data, out), (4, 3) => qoi_decode_impl_stream::<_, 4, false>(data, out), (4, 4) => qoi_decode_impl_stream::<_, 4, true>(data, out), _ => { cold(); Err(Error::InvalidChannels { channels }) } } } pub struct QoiStreamDecoder { reader: R, header: Header, channels: Channels, } impl QoiStreamDecoder { #[inline] pub fn new(mut reader: R) -> Result { let mut b = [0; QOI_HEADER_SIZE]; reader.read_exact(&mut b)?; let header = Header::decode(b)?; Ok(Self { reader, header, channels: header.channels }) } pub fn with_channels(mut self, channels: Channels) -> Self { self.channels = channels; self } #[inline] pub fn channels(&self) -> Channels { self.channels } #[inline] pub fn header(&self) -> &Header { &self.header } #[inline] pub fn reader(&self) -> &R { &self.reader } #[inline] pub fn into_reader(self) -> R { self.reader } #[inline] pub fn decode_to_buf(&mut self, mut buf: impl AsMut<[u8]>) -> Result { let buf = buf.as_mut(); let size = self.header.n_pixels() * self.channels.as_u8() as usize; if unlikely(buf.len() < size) { return Err(Error::OutputBufferTooSmall { size: buf.len(), required: size }); } qoi_decode_impl_stream_all( &mut self.reader, buf, self.channels.as_u8(), self.header.channels.as_u8(), )?; Ok(size) } #[inline] pub fn decode_to_vec(&mut self) -> Result> { let mut out = vec![0; self.header.n_pixels() * self.channels.as_u8() as usize]; let _ = self.decode_to_buf(&mut out)?; Ok(out) } }