oxipng/tests/flags.rs
Kornel 9af874d21b Make reductions return a new uncompressed image (#158)
* Fix verbose message

* No cloning when restoring original data

* Make reductions return a new uncompressed image

Partially fixes #145

* Async reduction evaluator

* Assert

* Faster bit depth check

* Also try 4-bit depth for small-depth images

* Skip test when using miniz

* Ensure palette is trimmed after depth reduction

Fixes #159

* Fudge factor for reductions to prefer better reductions even if gzip estimation says otherwise
2019-01-27 03:22:49 -05:00

440 lines
12 KiB
Rust

extern crate oxipng;
use oxipng::internal_tests::*;
use oxipng::{InFile, OutFile};
use std::collections::HashSet;
use std::fs::remove_file;
use std::path::Path;
use std::path::PathBuf;
fn get_opts(input: &Path) -> (OutFile, oxipng::Options) {
let mut options = oxipng::Options::default();
options.verbosity = None;
options.force = true;
let mut filter = HashSet::new();
filter.insert(0);
options.filter = filter;
(
OutFile::Path(Some(input.with_extension("out.png").to_owned())),
options,
)
}
fn test_it_converts(
input: PathBuf,
output: &OutFile,
opts: &oxipng::Options,
color_type_in: ColorType,
bit_depth_in: BitDepth,
color_type_out: ColorType,
bit_depth_out: BitDepth,
) {
let png = PngData::new(&input, opts.fix_errors).unwrap();
assert_eq!(png.raw.ihdr.color_type, color_type_in);
assert_eq!(png.raw.ihdr.bit_depth, bit_depth_in);
match oxipng::optimize(&InFile::Path(input), &output, &opts) {
Ok(_) => (),
Err(x) => panic!("{}", x),
};
let output = output.path().unwrap();
assert!(output.exists());
let png = match PngData::new(output, opts.fix_errors) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!("{}", x)
}
};
assert_eq!(png.raw.ihdr.color_type, color_type_out);
assert_eq!(png.raw.ihdr.bit_depth, bit_depth_out);
remove_file(output).ok();
}
#[test]
fn verbose_mode() {
let input = PathBuf::from("tests/files/verbose_mode.png");
let (output, mut opts) = get_opts(&input);
opts.verbosity = Some(1);
test_it_converts(
input,
&output,
&opts,
ColorType::RGB,
BitDepth::Eight,
ColorType::RGB,
BitDepth::Eight,
);
}
#[test]
fn strip_headers_list() {
let input = PathBuf::from("tests/files/strip_headers_list.png");
let (output, mut opts) = get_opts(&input);
opts.strip = Headers::Strip(vec!["iCCP".to_owned(), "tEXt".to_owned()]);
let png = PngData::new(&input, opts.fix_errors).unwrap();
assert!(png.raw.aux_headers.contains_key(b"tEXt"));
assert!(png.raw.aux_headers.contains_key(b"iTXt"));
assert!(png.raw.aux_headers.contains_key(b"iCCP"));
match oxipng::optimize(&InFile::Path(input), &output, &opts) {
Ok(_) => (),
Err(x) => panic!("{}", x),
};
let output = output.path().unwrap();
assert!(output.exists());
let png = match PngData::new(&output, opts.fix_errors) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!("{}", x)
}
};
assert!(!png.raw.aux_headers.contains_key(b"tEXt"));
assert!(png.raw.aux_headers.contains_key(b"iTXt"));
assert!(!png.raw.aux_headers.contains_key(b"iCCP"));
remove_file(output).ok();
}
#[test]
fn strip_headers_safe() {
let input = PathBuf::from("tests/files/strip_headers_safe.png");
let (output, mut opts) = get_opts(&input);
opts.strip = Headers::Safe;
let png = PngData::new(&input, opts.fix_errors).unwrap();
assert!(png.raw.aux_headers.contains_key(b"tEXt"));
assert!(png.raw.aux_headers.contains_key(b"iTXt"));
assert!(png.raw.aux_headers.contains_key(b"iCCP"));
match oxipng::optimize(&InFile::Path(input), &output, &opts) {
Ok(_) => (),
Err(x) => panic!("{}", x),
};
let output = output.path().unwrap();
assert!(output.exists());
let png = match PngData::new(&output, opts.fix_errors) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!("{}", x)
}
};
assert!(!png.raw.aux_headers.contains_key(b"tEXt"));
assert!(!png.raw.aux_headers.contains_key(b"iTXt"));
assert!(png.raw.aux_headers.contains_key(b"sRGB"));
remove_file(output).ok();
}
#[test]
fn strip_headers_all() {
let input = PathBuf::from("tests/files/strip_headers_all.png");
let (output, mut opts) = get_opts(&input);
opts.strip = Headers::All;
let png = PngData::new(&input, opts.fix_errors).unwrap();
assert!(png.raw.aux_headers.contains_key(b"tEXt"));
assert!(png.raw.aux_headers.contains_key(b"iTXt"));
assert!(png.raw.aux_headers.contains_key(b"iCCP"));
match oxipng::optimize(&InFile::Path(input), &output, &opts) {
Ok(_) => (),
Err(x) => panic!("{}", x),
};
let output = output.path().unwrap();
assert!(output.exists());
let png = match PngData::new(&output, opts.fix_errors) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!("{}", x)
}
};
assert!(!png.raw.aux_headers.contains_key(b"tEXt"));
assert!(!png.raw.aux_headers.contains_key(b"iTXt"));
assert!(!png.raw.aux_headers.contains_key(b"iCCP"));
remove_file(output).ok();
}
#[test]
fn strip_headers_none() {
let input = PathBuf::from("tests/files/strip_headers_none.png");
let (output, mut opts) = get_opts(&input);
opts.strip = Headers::None;
let png = PngData::new(&input, opts.fix_errors).unwrap();
assert!(png.raw.aux_headers.contains_key(b"tEXt"));
assert!(png.raw.aux_headers.contains_key(b"iTXt"));
assert!(png.raw.aux_headers.contains_key(b"iCCP"));
match oxipng::optimize(&InFile::Path(input), &output, &opts) {
Ok(_) => (),
Err(x) => panic!("{}", x),
};
let output = output.path().unwrap();
assert!(output.exists());
let png = match PngData::new(&output, opts.fix_errors) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!("{}", x)
}
};
assert!(png.raw.aux_headers.contains_key(b"tEXt"));
assert!(png.raw.aux_headers.contains_key(b"iTXt"));
assert!(png.raw.aux_headers.contains_key(b"iCCP"));
remove_file(output).ok();
}
#[test]
fn interlacing_0_to_1() {
let input = PathBuf::from("tests/files/interlacing_0_to_1.png");
let (output, mut opts) = get_opts(&input);
opts.interlace = Some(1);
let png = PngData::new(&input, opts.fix_errors).unwrap();
assert_eq!(png.raw.ihdr.interlaced, 0);
match oxipng::optimize(&InFile::Path(input), &output, &opts) {
Ok(_) => (),
Err(x) => panic!("{}", x),
};
let output = output.path().unwrap();
assert!(output.exists());
let png = match PngData::new(&output, opts.fix_errors) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!("{}", x)
}
};
assert_eq!(png.raw.ihdr.interlaced, 1);
remove_file(output).ok();
}
#[test]
fn interlacing_1_to_0() {
let input = PathBuf::from("tests/files/interlacing_1_to_0.png");
let (output, mut opts) = get_opts(&input);
opts.interlace = Some(0);
let png = PngData::new(&input, opts.fix_errors).unwrap();
assert_eq!(png.raw.ihdr.interlaced, 1);
match oxipng::optimize(&InFile::Path(input), &output, &opts) {
Ok(_) => (),
Err(x) => panic!("{}", x),
};
let output = output.path().unwrap();
assert!(output.exists());
let png = match PngData::new(&output, opts.fix_errors) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!("{}", x)
}
};
assert_eq!(png.raw.ihdr.interlaced, 0);
remove_file(output).ok();
}
#[test]
fn interlacing_0_to_1_small_files() {
let input = PathBuf::from("tests/files/interlacing_0_to_1_small_files.png");
let (output, mut opts) = get_opts(&input);
opts.interlace = Some(1);
let png = PngData::new(&input, opts.fix_errors).unwrap();
assert_eq!(png.raw.ihdr.interlaced, 0);
assert_eq!(png.raw.ihdr.color_type, ColorType::Indexed);
assert_eq!(png.raw.ihdr.bit_depth, BitDepth::Eight);
match oxipng::optimize(&InFile::Path(input), &output, &opts) {
Ok(_) => (),
Err(x) => panic!("{}", x),
};
let output = output.path().unwrap();
assert!(output.exists());
let png = match PngData::new(&output, opts.fix_errors) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!("{}", x)
}
};
assert_eq!(png.raw.ihdr.interlaced, 1);
assert_eq!(png.raw.ihdr.color_type, ColorType::Indexed);
assert_eq!(png.raw.ihdr.bit_depth, BitDepth::One);
remove_file(output).ok();
}
#[test]
fn interlacing_1_to_0_small_files() {
let input = PathBuf::from("tests/files/interlacing_1_to_0_small_files.png");
let (output, mut opts) = get_opts(&input);
opts.interlace = Some(0);
let png = PngData::new(&input, opts.fix_errors).unwrap();
assert_eq!(png.raw.ihdr.interlaced, 1);
assert_eq!(png.raw.ihdr.color_type, ColorType::Indexed);
assert_eq!(png.raw.ihdr.bit_depth, BitDepth::Eight);
match oxipng::optimize(&InFile::Path(input), &output, &opts) {
Ok(_) => (),
Err(x) => panic!("{}", x),
};
let output = output.path().unwrap();
assert!(output.exists());
let png = match PngData::new(&output, opts.fix_errors) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!("{}", x)
}
};
assert_eq!(png.raw.ihdr.interlaced, 0);
assert_eq!(png.raw.ihdr.color_type, ColorType::Indexed);
// the depth can't be asserted reliably, because on such small file different zlib implementaitons pick diferent depth as the best
remove_file(output).ok();
}
#[test]
fn interlaced_0_to_1_other_filter_mode() {
let input = PathBuf::from("tests/files/interlaced_0_to_1_other_filter_mode.png");
let (output, mut opts) = get_opts(&input);
opts.interlace = Some(1);
let mut filter = HashSet::new();
filter.insert(4);
opts.filter = filter;
let png = PngData::new(&input, opts.fix_errors).unwrap();
assert_eq!(png.raw.ihdr.interlaced, 0);
match oxipng::optimize(&InFile::Path(input), &output, &opts) {
Ok(_) => (),
Err(x) => panic!("{}", x),
};
let output = output.path().unwrap();
assert!(output.exists());
let png = match PngData::new(&output, opts.fix_errors) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!("{}", x)
}
};
assert_eq!(png.raw.ihdr.interlaced, 1);
remove_file(output).ok();
}
#[test]
fn preserve_attrs() {
let input = PathBuf::from("tests/files/preserve_attrs.png");
let (output, mut opts) = get_opts(&input);
opts.preserve_attrs = true;
test_it_converts(
input,
&output,
&opts,
ColorType::RGB,
BitDepth::Eight,
ColorType::RGB,
BitDepth::Eight,
);
// TODO: Actually check permissions
}
#[test]
fn fix_errors() {
let input = PathBuf::from("tests/files/fix_errors.png");
let (output, mut opts) = get_opts(&input);
opts.fix_errors = true;
let png = PngData::new(&input, opts.fix_errors).unwrap();
assert_eq!(png.raw.ihdr.color_type, ColorType::RGBA);
assert_eq!(png.raw.ihdr.bit_depth, BitDepth::Eight);
match oxipng::optimize(&InFile::Path(input), &output, &opts) {
Ok(_) => (),
Err(x) => panic!("{}", x),
};
let output = output.path().unwrap();
assert!(output.exists());
let png = match PngData::new(&output, false) {
Ok(x) => x,
Err(x) => {
remove_file(output).ok();
panic!("{}", x)
}
};
assert_eq!(png.raw.ihdr.color_type, ColorType::Grayscale);
assert_eq!(png.raw.ihdr.bit_depth, BitDepth::Eight);
// Cannot check if pixels are equal because image crate cannot read corrupt (input) PNGs
remove_file(output).ok();
}
#[test]
fn zopfli_mode() {
let input = PathBuf::from("tests/files/zopfli_mode.png");
let (output, mut opts) = get_opts(&input);
opts.deflate = Deflaters::Zopfli;
test_it_converts(
input,
&output,
&opts,
ColorType::RGB,
BitDepth::Eight,
ColorType::RGB,
BitDepth::Eight,
);
}