oxipng/tests/oxipng.rs
2016-03-02 12:40:56 -05:00

3012 lines
91 KiB
Rust

extern crate image;
extern crate oxipng;
use image::GenericImage;
use image::Pixel;
use oxipng::png;
use std::collections::HashSet;
use std::fs::remove_file;
use std::path::Path;
use std::path::PathBuf;
fn get_opts(input: &Path) -> oxipng::Options {
let mut filter = HashSet::new();
filter.insert(0);
let mut compression = HashSet::new();
compression.insert(9);
let mut memory = HashSet::new();
memory.insert(9);
let mut strategies = HashSet::new();
for i in 0..4 {
strategies.insert(i);
}
oxipng::Options {
backup: false,
out_file: input.with_extension("out.png").to_owned(),
out_dir: None,
stdout: false,
pretend: false,
recursive: false,
fix_errors: false,
force: true,
clobber: true,
create: true,
preserve_attrs: false,
verbosity: Some(0),
filter: filter,
interlace: None,
compression: compression,
memory: memory,
strategies: strategies,
window: 15,
bit_depth_reduction: true,
color_type_reduction: true,
palette_reduction: true,
idat_recoding: true,
strip: false,
}
}
#[test]
fn rgba_16_should_be_rgba_16() {
let input = PathBuf::from("tests/files/rgba_16_should_be_rgba_16.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_16_should_be_rgba_8() {
let input = PathBuf::from("tests/files/rgba_16_should_be_rgba_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_8_should_be_rgba_8() {
let input = PathBuf::from("tests/files/rgba_8_should_be_rgba_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_16_should_be_rgb_16() {
let input = PathBuf::from("tests/files/rgba_16_should_be_rgb_16.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_16_should_be_rgb_8() {
let input = PathBuf::from("tests/files/rgba_16_should_be_rgb_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_8_should_be_rgb_8() {
let input = PathBuf::from("tests/files/rgba_8_should_be_rgb_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_16_should_be_palette_8() {
let input = PathBuf::from("tests/files/rgba_16_should_be_palette_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_8_should_be_palette_8() {
let input = PathBuf::from("tests/files/rgba_8_should_be_palette_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_16_should_be_palette_4() {
let input = PathBuf::from("tests/files/rgba_16_should_be_palette_4.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Four);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_8_should_be_palette_4() {
let input = PathBuf::from("tests/files/rgba_8_should_be_palette_4.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Four);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_16_should_be_palette_2() {
let input = PathBuf::from("tests/files/rgba_16_should_be_palette_2.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Two);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_8_should_be_palette_2() {
let input = PathBuf::from("tests/files/rgba_8_should_be_palette_2.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Two);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_16_should_be_palette_1() {
let input = PathBuf::from("tests/files/rgba_16_should_be_palette_1.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::One);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_8_should_be_palette_1() {
let input = PathBuf::from("tests/files/rgba_8_should_be_palette_1.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::One);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_16_should_be_grayscale_alpha_16() {
let input = PathBuf::from("tests/files/rgba_16_should_be_grayscale_alpha_16.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::GrayscaleAlpha);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_16_should_be_grayscale_alpha_8() {
let input = PathBuf::from("tests/files/rgba_16_should_be_grayscale_alpha_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::GrayscaleAlpha);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_8_should_be_grayscale_alpha_8() {
let input = PathBuf::from("tests/files/rgba_8_should_be_grayscale_alpha_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::GrayscaleAlpha);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_16_should_be_grayscale_16() {
let input = PathBuf::from("tests/files/rgba_16_should_be_grayscale_16.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Grayscale);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_16_should_be_grayscale_8() {
let input = PathBuf::from("tests/files/rgba_16_should_be_grayscale_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Grayscale);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_8_should_be_grayscale_8() {
let input = PathBuf::from("tests/files/rgba_8_should_be_grayscale_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Grayscale);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_16_should_be_palette_4_grayscale() {
let input = PathBuf::from("tests/files/rgba_16_should_be_palette_4_grayscale.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Four);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_8_should_be_palette_4_grayscale() {
let input = PathBuf::from("tests/files/rgba_8_should_be_palette_4_grayscale.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Four);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_16_should_be_palette_2_grayscale() {
let input = PathBuf::from("tests/files/rgba_16_should_be_palette_2_grayscale.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Two);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_8_should_be_palette_2_grayscale() {
let input = PathBuf::from("tests/files/rgba_8_should_be_palette_2_grayscale.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Two);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_16_should_be_palette_1_grayscale() {
let input = PathBuf::from("tests/files/rgba_16_should_be_palette_1_grayscale.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::One);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgba_8_should_be_palette_1_grayscale() {
let input = PathBuf::from("tests/files/rgba_8_should_be_palette_1_grayscale.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGBA);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::One);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgb_16_should_be_rgb_16() {
let input = PathBuf::from("tests/files/rgb_16_should_be_rgb_16.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgb_16_should_be_rgb_8() {
let input = PathBuf::from("tests/files/rgb_16_should_be_rgb_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgb_8_should_be_rgb_8() {
let input = PathBuf::from("tests/files/rgb_8_should_be_rgb_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgb_16_should_be_palette_8() {
let input = PathBuf::from("tests/files/rgb_16_should_be_palette_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgb_8_should_be_palette_8() {
let input = PathBuf::from("tests/files/rgb_8_should_be_palette_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgb_16_should_be_palette_4() {
let input = PathBuf::from("tests/files/rgb_16_should_be_palette_4.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Four);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgb_8_should_be_palette_4() {
let input = PathBuf::from("tests/files/rgb_8_should_be_palette_4.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Four);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgb_16_should_be_palette_2() {
let input = PathBuf::from("tests/files/rgb_16_should_be_palette_2.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Two);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgb_8_should_be_palette_2() {
let input = PathBuf::from("tests/files/rgb_8_should_be_palette_2.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Two);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgb_16_should_be_palette_1() {
let input = PathBuf::from("tests/files/rgb_16_should_be_palette_1.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::One);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgb_8_should_be_palette_1() {
let input = PathBuf::from("tests/files/rgb_8_should_be_palette_1.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::One);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgb_16_should_be_grayscale_16() {
let input = PathBuf::from("tests/files/rgb_16_should_be_grayscale_16.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Grayscale);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgb_16_should_be_grayscale_8() {
let input = PathBuf::from("tests/files/rgb_16_should_be_grayscale_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Grayscale);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgb_8_should_be_grayscale_8() {
let input = PathBuf::from("tests/files/rgb_8_should_be_grayscale_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Grayscale);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgb_16_should_be_palette_4_grayscale() {
let input = PathBuf::from("tests/files/rgb_16_should_be_palette_4_grayscale.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Four);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgb_8_should_be_palette_4_grayscale() {
let input = PathBuf::from("tests/files/rgb_8_should_be_palette_4_grayscale.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Four);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgb_16_should_be_palette_2_grayscale() {
let input = PathBuf::from("tests/files/rgb_16_should_be_palette_2_grayscale.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Two);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgb_8_should_be_palette_2_grayscale() {
let input = PathBuf::from("tests/files/rgb_8_should_be_palette_2_grayscale.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Two);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgb_16_should_be_palette_1_grayscale() {
let input = PathBuf::from("tests/files/rgb_16_should_be_palette_1_grayscale.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::One);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn rgb_8_should_be_palette_1_grayscale() {
let input = PathBuf::from("tests/files/rgb_8_should_be_palette_1_grayscale.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::RGB);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::One);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn palette_8_should_be_grayscale_8() {
let input = PathBuf::from("tests/files/palette_8_should_be_grayscale_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Grayscale);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn palette_8_should_be_palette_8() {
let input = PathBuf::from("tests/files/palette_8_should_be_palette_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn palette_8_should_be_palette_4() {
let input = PathBuf::from("tests/files/palette_8_should_be_palette_4.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Four);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn palette_4_should_be_palette_4() {
let input = PathBuf::from("tests/files/palette_4_should_be_palette_4.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Four);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Four);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn palette_8_should_be_palette_2() {
let input = PathBuf::from("tests/files/palette_8_should_be_palette_2.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Two);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn palette_4_should_be_palette_2() {
let input = PathBuf::from("tests/files/palette_4_should_be_palette_2.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Four);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Two);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn palette_2_should_be_palette_2() {
let input = PathBuf::from("tests/files/palette_2_should_be_palette_2.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Two);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Two);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn palette_8_should_be_palette_1() {
let input = PathBuf::from("tests/files/palette_8_should_be_palette_1.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::One);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn palette_4_should_be_palette_1() {
let input = PathBuf::from("tests/files/palette_4_should_be_palette_1.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Four);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::One);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn palette_2_should_be_palette_1() {
let input = PathBuf::from("tests/files/palette_2_should_be_palette_1.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Two);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::One);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn palette_1_should_be_palette_1() {
let input = PathBuf::from("tests/files/palette_1_should_be_palette_1.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::One);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::One);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn grayscale_alpha_16_should_be_grayscale_alpha_16() {
let input = PathBuf::from("tests/files/grayscale_alpha_16_should_be_grayscale_alpha_16.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::GrayscaleAlpha);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::GrayscaleAlpha);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn grayscale_alpha_16_should_be_grayscale_alpha_8() {
let input = PathBuf::from("tests/files/grayscale_alpha_16_should_be_grayscale_alpha_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::GrayscaleAlpha);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::GrayscaleAlpha);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn grayscale_alpha_8_should_be_grayscale_alpha_8() {
let input = PathBuf::from("tests/files/grayscale_alpha_8_should_be_grayscale_alpha_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::GrayscaleAlpha);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::GrayscaleAlpha);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn grayscale_alpha_16_should_be_grayscale_16() {
let input = PathBuf::from("tests/files/grayscale_alpha_16_should_be_grayscale_16.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::GrayscaleAlpha);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Grayscale);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn grayscale_alpha_16_should_be_grayscale_8() {
let input = PathBuf::from("tests/files/grayscale_alpha_16_should_be_grayscale_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::GrayscaleAlpha);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Grayscale);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn grayscale_alpha_8_should_be_grayscale_8() {
let input = PathBuf::from("tests/files/grayscale_alpha_8_should_be_grayscale_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::GrayscaleAlpha);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Grayscale);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn grayscale_alpha_16_should_be_palette_4() {
let input = PathBuf::from("tests/files/grayscale_alpha_16_should_be_palette_4.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::GrayscaleAlpha);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Four);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn grayscale_alpha_8_should_be_palette_4() {
let input = PathBuf::from("tests/files/grayscale_alpha_8_should_be_palette_4.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::GrayscaleAlpha);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Four);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn grayscale_alpha_16_should_be_palette_2() {
let input = PathBuf::from("tests/files/grayscale_alpha_16_should_be_palette_2.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::GrayscaleAlpha);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Two);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn grayscale_alpha_8_should_be_palette_2() {
let input = PathBuf::from("tests/files/grayscale_alpha_8_should_be_palette_2.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::GrayscaleAlpha);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Two);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn grayscale_alpha_16_should_be_palette_1() {
let input = PathBuf::from("tests/files/grayscale_alpha_16_should_be_palette_1.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::GrayscaleAlpha);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::One);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn grayscale_alpha_8_should_be_palette_1() {
let input = PathBuf::from("tests/files/grayscale_alpha_8_should_be_palette_1.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::GrayscaleAlpha);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::One);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn grayscale_16_should_be_grayscale_8() {
let input = PathBuf::from("tests/files/grayscale_16_should_be_grayscale_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::Grayscale);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Grayscale);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn grayscale_16_should_be_palette_4() {
let input = PathBuf::from("tests/files/grayscale_16_should_be_palette_4.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::Grayscale);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Four);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn grayscale_16_should_be_palette_2() {
let input = PathBuf::from("tests/files/grayscale_16_should_be_palette_2.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::Grayscale);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Two);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn grayscale_16_should_be_palette_1() {
let input = PathBuf::from("tests/files/grayscale_16_should_be_palette_1.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::Grayscale);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Sixteen);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::One);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn grayscale_8_should_be_grayscale_8() {
let input = PathBuf::from("tests/files/grayscale_8_should_be_grayscale_8.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::Grayscale);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Grayscale);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn grayscale_8_should_be_palette_4() {
let input = PathBuf::from("tests/files/grayscale_8_should_be_palette_4.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::Grayscale);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Four);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn grayscale_8_should_be_palette_2() {
let input = PathBuf::from("tests/files/grayscale_8_should_be_palette_2.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::Grayscale);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Two);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn grayscale_8_should_be_palette_1() {
let input = PathBuf::from("tests/files/grayscale_8_should_be_palette_1.png");
let opts = get_opts(&input);
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.ihdr_data.color_type == png::ColorType::Grayscale);
assert!(png.ihdr_data.bit_depth == png::BitDepth::Eight);
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(png.ihdr_data.color_type == png::ColorType::Indexed);
assert!(png.ihdr_data.bit_depth == png::BitDepth::One);
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}
#[test]
fn strip_headers() {
let input = PathBuf::from("tests/files/rgb_8_should_be_rgb_8.png");
let mut opts = get_opts(&input);
opts.strip = true;
let output = opts.out_file.clone();
let png = png::PngData::new(&input).unwrap();
assert!(png.aux_headers.contains_key("tEXt"));
match oxipng::optimize(&input, &opts) {
Ok(_) => (),
Err(x) => panic!(x.to_owned()),
};
assert!(output.exists());
let png = match png::PngData::new(&output) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!(x.to_owned())
}
};
assert!(!png.aux_headers.contains_key("tEXt"));
let old_png = image::open(&input).unwrap();
let new_png = image::open(&output).unwrap();
// Conversion should be lossless
assert!(old_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>() ==
new_png.pixels().map(|x| x.2.channels().to_owned()).collect::<Vec<Vec<u8>>>());
remove_file(output).ok();
}