qoi/src/header.rs

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Rust
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use core::convert::TryInto;
use bytemuck::cast_slice;
use crate::consts::{QOI_HEADER_SIZE, QOI_MAGIC, QOI_PIXELS_MAX};
use crate::encoded_size_limit;
use crate::error::{Error, Result};
use crate::types::{Channels, ColorSpace};
use crate::utils::unlikely;
/// QOI image header.
///
/// ### Notes
/// A valid image header must satisfy the following conditions:
/// * Both width and height must be non-zero.
/// * Maximum number of pixels is 400Mp (=4e8 pixels).
#[derive(Copy, Clone, Debug, PartialEq, Eq, Hash)]
pub struct Header {
/// Image width in pixels
pub width: u32,
/// Image height in pixels
pub height: u32,
/// Number of 8-bit channels per pixel
pub channels: Channels,
/// Color space (informative field, doesn't affect encoding)
pub colorspace: ColorSpace,
}
impl Default for Header {
#[inline]
fn default() -> Self {
Self {
width: 1,
height: 1,
channels: Channels::default(),
colorspace: ColorSpace::default(),
}
}
}
impl Header {
/// Creates a new header and validates image dimensions.
#[inline]
pub const fn try_new(
width: u32, height: u32, channels: Channels, colorspace: ColorSpace,
) -> Result<Self> {
if unlikely(height == 0 || width == 0) {
return Err(Error::EmptyImage { width, height });
} else if unlikely((width as usize).saturating_mul(height as usize) > QOI_PIXELS_MAX) {
return Err(Error::ImageTooLarge { width, height });
}
Ok(Self { width, height, channels, colorspace })
}
/// Creates a new header with modified channels.
#[inline]
pub const fn with_channels(mut self, channels: Channels) -> Self {
self.channels = channels;
self
}
/// Creates a new header with modified color space.
#[inline]
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pub const fn with_colorspace(mut self, colorspace: ColorSpace) -> Self {
self.colorspace = colorspace;
self
}
/// Serializes the header into a bytes array.
#[inline]
pub(crate) fn encode(&self) -> [u8; QOI_HEADER_SIZE] {
let mut out = [0; QOI_HEADER_SIZE];
out[..4].copy_from_slice(&QOI_MAGIC.to_be_bytes());
out[4..8].copy_from_slice(&self.width.to_be_bytes());
out[8..12].copy_from_slice(&self.height.to_be_bytes());
out[12] = self.channels.into();
out[13] = self.colorspace.into();
out
}
/// Deserializes the header from a byte array.
#[inline]
pub(crate) fn decode(data: impl AsRef<[u8]>) -> Result<Self> {
let data = data.as_ref();
if unlikely(data.len() < QOI_HEADER_SIZE) {
return Err(Error::InputBufferTooSmall { size: data.len(), required: QOI_HEADER_SIZE });
}
let v = cast_slice::<_, [u8; 4]>(&data[..12]);
let magic = u32::from_be_bytes(v[0]);
let width = u32::from_be_bytes(v[1]);
let height = u32::from_be_bytes(v[2]);
let channels = data[12].try_into()?;
let colorspace = data[13].try_into()?;
if unlikely(magic != QOI_MAGIC) {
return Err(Error::InvalidMagic { magic });
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}
Self::try_new(width, height, channels, colorspace)
}
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/// Returns a number of pixels in the image.
#[inline]
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pub const fn n_pixels(&self) -> usize {
(self.width as usize).saturating_mul(self.height as usize)
}
/// Returns the total number of bytes in the image.
#[inline]
pub const fn n_bytes(&self) -> usize {
self.n_pixels() * self.channels.as_u8() as usize
}
/// Returns the maximum number of bytes the image can possibly occupy when QOI-encoded.
///
/// This comes useful when pre-allocating a buffer to encode the image into.
#[inline]
pub fn encoded_size_limit(&self) -> usize {
encoded_size_limit(self.width, self.height, self.channels)
}
}