use super::*;
fn pseudo_random_rgba(width: usize) -> std::vec::Vec<u8> {
(0..width * 4)
.map(|i| ((i * 17 + 41) & 0xFF) as u8)
.collect()
}
#[test]
fn simd128_rgba_to_rgb_matches_scalar() {
for w in [1usize, 7, 15, 16, 17, 31, 32, 33, 1920, 1921] {
let input = pseudo_random_rgba(w);
let mut out_scalar = std::vec![0u8; w * 3];
let mut out_wasm = std::vec![0u8; w * 3];
scalar::rgba_to_rgb_row(&input, &mut out_scalar, w);
unsafe {
rgba_to_rgb_row(&input, &mut out_wasm, w);
}
assert_eq!(
out_scalar, out_wasm,
"simd128 rgba_to_rgb diverges (width={w})"
);
}
}
#[test]
fn simd128_bgra_to_rgba_matches_scalar() {
for w in [1usize, 7, 15, 16, 17, 31, 32, 33, 1920, 1921] {
let input = pseudo_random_rgba(w);
let mut out_scalar = std::vec![0u8; w * 4];
let mut out_wasm = std::vec![0u8; w * 4];
scalar::bgra_to_rgba_row(&input, &mut out_scalar, w);
unsafe {
bgra_to_rgba_row(&input, &mut out_wasm, w);
}
assert_eq!(
out_scalar, out_wasm,
"simd128 bgra_to_rgba diverges (width={w})"
);
}
}
#[test]
fn simd128_bgra_to_rgb_matches_scalar() {
for w in [1usize, 7, 15, 16, 17, 31, 32, 33, 1920, 1921] {
let input = pseudo_random_rgba(w);
let mut out_scalar = std::vec![0u8; w * 3];
let mut out_wasm = std::vec![0u8; w * 3];
scalar::bgra_to_rgb_row(&input, &mut out_scalar, w);
unsafe {
bgra_to_rgb_row(&input, &mut out_wasm, w);
}
assert_eq!(
out_scalar, out_wasm,
"simd128 bgra_to_rgb diverges (width={w})"
);
}
}
#[test]
fn simd128_argb_to_rgb_matches_scalar() {
for w in [1usize, 7, 15, 16, 17, 31, 32, 33, 1920, 1921] {
let input = pseudo_random_rgba(w);
let mut out_scalar = std::vec![0u8; w * 3];
let mut out_wasm = std::vec![0u8; w * 3];
scalar::argb_to_rgb_row(&input, &mut out_scalar, w);
unsafe {
argb_to_rgb_row(&input, &mut out_wasm, w);
}
assert_eq!(
out_scalar, out_wasm,
"simd128 argb_to_rgb diverges (width={w})"
);
}
}
#[test]
fn simd128_abgr_to_rgb_matches_scalar() {
for w in [1usize, 7, 15, 16, 17, 31, 32, 33, 1920, 1921] {
let input = pseudo_random_rgba(w);
let mut out_scalar = std::vec![0u8; w * 3];
let mut out_wasm = std::vec![0u8; w * 3];
scalar::abgr_to_rgb_row(&input, &mut out_scalar, w);
unsafe {
abgr_to_rgb_row(&input, &mut out_wasm, w);
}
assert_eq!(
out_scalar, out_wasm,
"simd128 abgr_to_rgb diverges (width={w})"
);
}
}
#[test]
fn simd128_argb_to_rgba_matches_scalar() {
for w in [1usize, 7, 15, 16, 17, 31, 32, 33, 1920, 1921] {
let input = pseudo_random_rgba(w);
let mut out_scalar = std::vec![0u8; w * 4];
let mut out_wasm = std::vec![0u8; w * 4];
scalar::argb_to_rgba_row(&input, &mut out_scalar, w);
unsafe {
argb_to_rgba_row(&input, &mut out_wasm, w);
}
assert_eq!(
out_scalar, out_wasm,
"simd128 argb_to_rgba diverges (width={w})"
);
}
}
#[test]
fn simd128_abgr_to_rgba_matches_scalar() {
for w in [1usize, 7, 15, 16, 17, 31, 32, 33, 1920, 1921] {
let input = pseudo_random_rgba(w);
let mut out_scalar = std::vec![0u8; w * 4];
let mut out_wasm = std::vec![0u8; w * 4];
scalar::abgr_to_rgba_row(&input, &mut out_scalar, w);
unsafe {
abgr_to_rgba_row(&input, &mut out_wasm, w);
}
assert_eq!(
out_scalar, out_wasm,
"simd128 abgr_to_rgba diverges (width={w})"
);
}
}
#[test]
fn simd128_xrgb_to_rgba_matches_scalar() {
for w in [1usize, 7, 15, 16, 17, 31, 32, 33, 1920, 1921] {
let input = pseudo_random_rgba(w);
let mut out_scalar = std::vec![0u8; w * 4];
let mut out_wasm = std::vec![0u8; w * 4];
scalar::xrgb_to_rgba_row(&input, &mut out_scalar, w);
unsafe {
xrgb_to_rgba_row(&input, &mut out_wasm, w);
}
assert_eq!(
out_scalar, out_wasm,
"simd128 xrgb_to_rgba diverges (width={w})"
);
}
}
#[test]
fn simd128_rgbx_to_rgba_matches_scalar() {
for w in [1usize, 7, 15, 16, 17, 31, 32, 33, 1920, 1921] {
let input = pseudo_random_rgba(w);
let mut out_scalar = std::vec![0u8; w * 4];
let mut out_wasm = std::vec![0u8; w * 4];
scalar::rgbx_to_rgba_row(&input, &mut out_scalar, w);
unsafe {
rgbx_to_rgba_row(&input, &mut out_wasm, w);
}
assert_eq!(
out_scalar, out_wasm,
"simd128 rgbx_to_rgba diverges (width={w})"
);
}
}
#[test]
fn simd128_xbgr_to_rgba_matches_scalar() {
for w in [1usize, 7, 15, 16, 17, 31, 32, 33, 1920, 1921] {
let input = pseudo_random_rgba(w);
let mut out_scalar = std::vec![0u8; w * 4];
let mut out_wasm = std::vec![0u8; w * 4];
scalar::xbgr_to_rgba_row(&input, &mut out_scalar, w);
unsafe {
xbgr_to_rgba_row(&input, &mut out_wasm, w);
}
assert_eq!(
out_scalar, out_wasm,
"simd128 xbgr_to_rgba diverges (width={w})"
);
}
}
#[test]
fn simd128_bgrx_to_rgba_matches_scalar() {
for w in [1usize, 7, 15, 16, 17, 31, 32, 33, 1920, 1921] {
let input = pseudo_random_rgba(w);
let mut out_scalar = std::vec![0u8; w * 4];
let mut out_wasm = std::vec![0u8; w * 4];
scalar::bgrx_to_rgba_row(&input, &mut out_scalar, w);
unsafe {
bgrx_to_rgba_row(&input, &mut out_wasm, w);
}
assert_eq!(
out_scalar, out_wasm,
"simd128 bgrx_to_rgba diverges (width={w})"
);
}
}
#[test]
fn simd128_x2rgb10_to_rgb_matches_scalar() {
for w in [1usize, 7, 15, 16, 17, 31, 32, 33, 1920, 1921] {
let input = pseudo_random_rgba(w);
let mut out_scalar = std::vec![0u8; w * 3];
let mut out_wasm = std::vec![0u8; w * 3];
scalar::x2rgb10_to_rgb_row::<false>(&input, &mut out_scalar, w);
unsafe {
x2rgb10_to_rgb_row::<false>(&input, &mut out_wasm, w);
}
assert_eq!(
out_scalar, out_wasm,
"simd128 x2rgb10_to_rgb diverges (width={w})"
);
}
}
#[test]
fn simd128_x2rgb10_to_rgba_matches_scalar() {
for w in [1usize, 3, 4, 5, 7, 15, 16, 17, 31, 32, 33, 1920, 1921] {
let input = pseudo_random_rgba(w);
let mut out_scalar = std::vec![0u8; w * 4];
let mut out_wasm = std::vec![0u8; w * 4];
scalar::x2rgb10_to_rgba_row::<false>(&input, &mut out_scalar, w);
unsafe {
x2rgb10_to_rgba_row::<false>(&input, &mut out_wasm, w);
}
assert_eq!(
out_scalar, out_wasm,
"simd128 x2rgb10_to_rgba diverges (width={w})"
);
}
}
#[test]
fn simd128_x2rgb10_to_rgb_u16_matches_scalar() {
for w in [1usize, 7, 8, 9, 15, 16, 17, 31, 32, 33, 1920, 1921] {
let input = pseudo_random_rgba(w);
let mut out_scalar = std::vec![0u16; w * 3];
let mut out_wasm = std::vec![0u16; w * 3];
scalar::x2rgb10_to_rgb_u16_row::<false>(&input, &mut out_scalar, w);
unsafe {
x2rgb10_to_rgb_u16_row::<false>(&input, &mut out_wasm, w);
}
assert_eq!(
out_scalar, out_wasm,
"simd128 x2rgb10_to_rgb_u16 diverges (width={w})"
);
}
}
#[test]
fn simd128_x2bgr10_to_rgb_matches_scalar() {
for w in [1usize, 7, 15, 16, 17, 31, 32, 33, 1920, 1921] {
let input = pseudo_random_rgba(w);
let mut out_scalar = std::vec![0u8; w * 3];
let mut out_wasm = std::vec![0u8; w * 3];
scalar::x2bgr10_to_rgb_row::<false>(&input, &mut out_scalar, w);
unsafe {
x2bgr10_to_rgb_row::<false>(&input, &mut out_wasm, w);
}
assert_eq!(
out_scalar, out_wasm,
"simd128 x2bgr10_to_rgb diverges (width={w})"
);
}
}
#[test]
fn simd128_x2bgr10_to_rgba_matches_scalar() {
for w in [1usize, 3, 4, 5, 7, 15, 16, 17, 31, 32, 33, 1920, 1921] {
let input = pseudo_random_rgba(w);
let mut out_scalar = std::vec![0u8; w * 4];
let mut out_wasm = std::vec![0u8; w * 4];
scalar::x2bgr10_to_rgba_row::<false>(&input, &mut out_scalar, w);
unsafe {
x2bgr10_to_rgba_row::<false>(&input, &mut out_wasm, w);
}
assert_eq!(
out_scalar, out_wasm,
"simd128 x2bgr10_to_rgba diverges (width={w})"
);
}
}
#[test]
fn simd128_x2bgr10_to_rgb_u16_matches_scalar() {
for w in [1usize, 7, 8, 9, 15, 16, 17, 31, 32, 33, 1920, 1921] {
let input = pseudo_random_rgba(w);
let mut out_scalar = std::vec![0u16; w * 3];
let mut out_wasm = std::vec![0u16; w * 3];
scalar::x2bgr10_to_rgb_u16_row::<false>(&input, &mut out_scalar, w);
unsafe {
x2bgr10_to_rgb_u16_row::<false>(&input, &mut out_wasm, w);
}
assert_eq!(
out_scalar, out_wasm,
"simd128 x2bgr10_to_rgb_u16 diverges (width={w})"
);
}
}