fparkan/vendor/exr/tests/across_compression.rs

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use std::path::Path;
use exr::prelude::*;
use exr::image::validate_results::ValidateResult;
fn dir() -> &'static Path { Path::new("tests/images/valid/custom/compression_methods") }
fn expect_eq_other(sub_dir: &str, image_name: &str, expected: &str) {
let path = dir().join(sub_dir).join(image_name);
match read_first_flat_layer_from_file(path) {
Err(Error::NotSupported(message)) => println!("skipping ({})", message),
Err(error) => panic!("unexpected error: {}", error),
Ok(mut decompressed) => {
let decompressed_path = dir().join(sub_dir).join(expected);
let mut expected_decompressed = read_first_flat_layer_from_file(decompressed_path)
.expect("uncompressed image could not be loaded");
// HACK: make metadata match artificially, to avoid failing the check due to meta data mismatch
// (the name of the compression methods should not be equal, as we test between compression methods)
expected_decompressed.layer_data.encoding.compression = Compression::Uncompressed;
decompressed.layer_data.encoding.compression = Compression::Uncompressed;
debug_assert_eq!(expected_decompressed.layer_data.attributes, decompressed.layer_data.attributes, "attributes should not be affected by compression");
debug_assert_eq!(expected_decompressed.layer_data.size, decompressed.layer_data.size, "size should not be affected by compression");
// Note: Unimplemented methods may still work, if each compressed tile would be larger than uncompressed.
expected_decompressed.assert_equals_result(&decompressed);
}
}
}
// comparing to a different format, png,
// is the only real way to check that
// little endian data is unpacked correctly on big endian systems
// it does not attempt to compare NaN
fn expect_eq_png(image_name: &str) {
type Rgb16Image = ::image::ImageBuffer<::image::Rgb<u16>, Vec<u16>>;
let exr_path = dir().join("u16").join(image_name);
let png_from_exr = read_first_rgba_layer_from_file(
exr_path,
|resolution, _channels: &RgbaChannels| -> Rgb16Image {
::image::ImageBuffer::new(
resolution.width() as u32,
resolution.height() as u32
)
},
// set each pixel in the png buffer from the exr file
|png_pixels: &mut Rgb16Image, position: Vec2<usize>, (r,g,b,_): (f32,f32,f32,f32)| {
png_pixels.put_pixel(
position.x() as u32, position.y() as u32,
::image::Rgb([to_u16(r), to_u16(g), to_u16(b)])
);
}
);
fn to_u16(num: f32) -> u16 { (num.powf(1.0/2.14).clamp(0.0, 1.0) * u16::MAX as f32).round() as u16 }
match png_from_exr {
Err(Error::NotSupported(message)) => println!("skipping ({})", message),
Err(error) => panic!("unexpected error: {}", error),
Ok(decompressed) => {
let truth_path = dir().join("u16").join("ground_truth.png");
let truth_dyn_img = image::open(truth_path).unwrap();
let ground_truth_png = truth_dyn_img.to_rgb16();
let exr_as_png_px = decompressed.layer_data.channel_data.pixels;
debug_assert_eq!(ground_truth_png.dimensions(), exr_as_png_px.dimensions(), "size should not be affected by compression");
let expected_px = ground_truth_png.pixels()
.flat_map(|px| px.0.iter().copied());
let actual_px = exr_as_png_px.pixels()
.flat_map(|px| px.0.iter().copied());
let max_diff = u16::MAX/10;
for (exp, val) in expected_px.zip(actual_px) {
assert!(
exp.abs_diff(val) < max_diff,
"values not similar enough: found {}, expected {}", val, exp
);
}
}
}
}
fn expect_eq_uncompressed(sub_dir: &str, image_name: &str) {
expect_eq_other(sub_dir, image_name, "uncompressed.exr")
}
#[test]
fn compare_compression_contents_zip_f32() {
expect_eq_uncompressed("f32", "zip.exr");
}
#[test]
fn compare_compression_contents_zip_f16() {
expect_eq_uncompressed("f16", "zip.exr");
}
#[test]
fn compare_compression_contents_zips_f32() {
expect_eq_uncompressed("f32", "zips.exr");
}
#[test]
fn compare_compression_contents_zips_f16() {
expect_eq_uncompressed("f16", "zips.exr");
}
#[test]
fn compare_compression_contents_b44_f32() {
expect_eq_uncompressed("f32", "b44.exr"); // f32s are not compressed in b44 and can be compared exactly
}
#[test]
fn compare_compression_contents_b44_f16() {
expect_eq_other("f16", "b44.exr", "decompressed_b44.exr");
}
#[test]
fn compare_compression_contents_b44a_f32() {
expect_eq_uncompressed("f32", "b44a.exr"); // f32s are not compressed in b44 and can be compared exactly
}
#[test]
fn compare_compression_contents_b44a_f16() {
expect_eq_other("f16", "b44a.exr", "decompressed_b44a.exr");
}
#[test]
fn compare_compression_contents_dwaa_f32() {
expect_eq_other("f32", "dwaa.exr", "decompressed_dwaa.exr");
}
#[test]
fn compare_compression_contents_dwaa_f16() {
expect_eq_other("f16", "dwaa.exr", "decompressed_dwaa.exr");
}
#[test]
fn compare_compression_contents_dwab_f32() {
expect_eq_other("f32", "dwab.exr", "decompressed_dwab.exr");
}
#[test]
fn compare_compression_contents_dwab_f16() {
expect_eq_other("f16", "dwab.exr", "decompressed_dwab.exr");
}
#[test]
fn compare_compression_contents_piz_f32() {
expect_eq_uncompressed("f32", "piz.exr");
}
#[test]
fn compare_compression_contents_piz_f16() {
expect_eq_uncompressed("f16", "piz.exr");
}
#[test]
fn compare_compression_contents_rle_f32() {
expect_eq_uncompressed("f32", "rle.exr");
}
#[test]
fn compare_compression_contents_rle_f16() {
expect_eq_uncompressed("f16", "rle.exr");
}
#[test]
#[cfg(target_endian = "little")] // TODO make it work on big endian
fn compare_compression_contents_pxr24_f16() {
expect_eq_other("f16", "pxr24.exr", "decompressed_pxr24.exr");
}
#[test]
#[cfg(target_endian = "little")] // TODO make it work on big endian
fn compare_compression_contents_pxr24_f32() {
expect_eq_other("f32", "pxr24.exr", "decompressed_pxr24.exr");
}
#[test]
fn compare_png_to_uncompressed_f16() {
expect_eq_png("f16_uncompressed.exr");
}
#[test]
fn compare_png_to_piz_f16() {
expect_eq_png("f16_piz.exr");
}
#[test]
fn compare_png_to_rle_f16() {
expect_eq_png("f16_rle.exr");
}
#[test]
fn compare_png_to_zip_f16() {
expect_eq_png("f16_zip.exr");
}
#[test]
fn compare_png_to_zips_f16() {
expect_eq_png("f16_zips.exr");
}
#[test]
fn compare_png_to_dwaa_f16() {
expect_eq_png("f16_dwaa.exr");
}
#[test]
fn compare_png_to_b44_f16() {
expect_eq_png("f16_b44.exr");
}
#[test]
fn compare_png_to_b44a_f16() {
expect_eq_png("f16_b44a.exr");
}
#[test]
#[cfg(target_endian = "little")] // TODO make it work on big endian
fn compare_png_to_pxr24_f16() {
expect_eq_png("f16_pxr24.exr");
}
#[test]
fn compare_png_to_uncompressed_f32() {
expect_eq_png("f32_uncompressed.exr");
}
#[test]
fn compare_png_to_piz_f32() {
expect_eq_png("f32_piz.exr");
}
#[test]
fn compare_png_to_rle_f32() {
expect_eq_png("f32_rle.exr");
}
#[test]
fn compare_png_to_zip_f32() {
expect_eq_png("f32_zip.exr");
}
#[test]
fn compare_png_to_dwaa_f32() {
expect_eq_png("f32_dwaa.exr");
}
#[test]
#[cfg(target_endian = "little")] // TODO make it work on big endian
fn compare_png_to_pxr24_f32() {
expect_eq_png("f32_pxr24.exr");
}