use crate::consts::{QOI_OP_DIFF, QOI_OP_LUMA, QOI_OP_RGB, QOI_OP_RGBA}; use crate::utils::Writer; #[derive(Copy, Clone, PartialEq, Eq)] #[repr(transparent)] pub struct Pixel(pub [u8; N]); impl Pixel { #[inline] pub const fn new() -> Self { Self([0; N]) } #[inline] pub fn read(&mut self, s: &[u8]) { let mut i = 0; while i < N { self.0[i] = s[i]; i += 1; } } #[inline] pub fn update_rgb(&mut self, r: u8, g: u8, b: u8) { self.0[0] = r; self.0[1] = g; self.0[2] = b; } #[inline] pub fn update_rgba(&mut self, r: u8, g: u8, b: u8, a: u8) { self.0[0] = r; self.0[1] = g; self.0[2] = b; if N >= 4 { self.0[3] = a; } } #[inline] pub fn update_diff(&mut self, b1: u8) { self.0[0] = self.0[0].wrapping_add((b1 >> 4) & 0x03).wrapping_sub(2); self.0[1] = self.0[1].wrapping_add((b1 >> 2) & 0x03).wrapping_sub(2); self.0[2] = self.0[2].wrapping_add(b1 & 0x03).wrapping_sub(2); } #[inline] pub fn update_luma(&mut self, b1: u8, b2: u8) { let vg = (b1 & 0x3f).wrapping_sub(32); let vg_8 = vg.wrapping_sub(8); let vr = vg_8.wrapping_add((b2 >> 4) & 0x0f); let vb = vg_8.wrapping_add(b2 & 0x0f); self.0[0] = self.0[0].wrapping_add(vr); self.0[1] = self.0[1].wrapping_add(vg); self.0[2] = self.0[2].wrapping_add(vb); } #[inline] pub const fn as_rgba(self, with_a: u8) -> Pixel<4> { let mut i = 0; let mut out = Pixel::new(); while i < N { out.0[i] = self.0[i]; i += 1; } if N < 4 { out.0[3] = with_a; } out } #[inline] pub const fn r(self) -> u8 { self.0[0] } #[inline] pub const fn g(self) -> u8 { self.0[1] } #[inline] pub const fn b(self) -> u8 { self.0[2] } #[inline] pub const fn with_a(mut self, value: u8) -> Self { if N >= 4 { self.0[3] = value; } self } #[inline] pub const fn a_or(self, value: u8) -> u8 { if N < 4 { value } else { self.0[3] } } #[inline] pub const fn hash_index(self) -> u8 { let r = self.r().wrapping_mul(3); let g = self.g().wrapping_mul(5); let b = self.b().wrapping_mul(7); let a = self.a_or(0xff).wrapping_mul(11); r.wrapping_add(g).wrapping_add(b).wrapping_add(a) % 64 } #[inline] pub fn rgb_add(&mut self, r: u8, g: u8, b: u8) { self.0[0] = self.0[0].wrapping_add(r); self.0[1] = self.0[1].wrapping_add(g); self.0[2] = self.0[2].wrapping_add(b); } #[inline] pub fn encode_into(&self, px_prev: Self, buf: W) -> W::Output { if N == 3 || self.a_or(0) == px_prev.a_or(0) { let vg = self.g().wrapping_sub(px_prev.g()); let vg_32 = vg.wrapping_add(32); if vg_32 | 63 == 63 { let vr = self.r().wrapping_sub(px_prev.r()); let vb = self.b().wrapping_sub(px_prev.b()); let vg_r = vr.wrapping_sub(vg); let vg_b = vb.wrapping_sub(vg); let (vr_2, vg_2, vb_2) = (vr.wrapping_add(2), vg.wrapping_add(2), vb.wrapping_add(2)); if vr_2 | vg_2 | vb_2 | 3 == 3 { buf.write_one(QOI_OP_DIFF | vr_2 << 4 | vg_2 << 2 | vb_2) } else { let (vg_r_8, vg_b_8) = (vg_r.wrapping_add(8), vg_b.wrapping_add(8)); if vg_r_8 | vg_b_8 | 15 == 15 { buf.write_many(&[QOI_OP_LUMA | vg_32, vg_r_8 << 4 | vg_b_8]) } else { buf.write_many(&[QOI_OP_RGB, self.r(), self.g(), self.b()]) } } } else { buf.write_many(&[QOI_OP_RGB, self.r(), self.g(), self.b()]) } } else { buf.write_many(&[QOI_OP_RGBA, self.r(), self.g(), self.b(), self.a_or(0xff)]) } } } impl From> for [u8; N] { #[inline(always)] fn from(px: Pixel) -> Self { px.0 } } pub trait SupportedChannels {} impl SupportedChannels for Pixel<3> {} impl SupportedChannels for Pixel<4> {}