199 lines
6.5 KiB
Rust
199 lines
6.5 KiB
Rust
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use std::{fs, path::PathBuf};
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use clap::Parser;
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use png::Decoder;
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#[derive(clap::ValueEnum, Clone)]
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enum Speed {
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Fast,
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Default,
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Best,
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}
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#[derive(clap::ValueEnum, Clone)]
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enum Filter {
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None,
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Sub,
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Up,
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Average,
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Paeth,
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Adaptive,
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}
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#[derive(clap::Parser)]
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struct Args {
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directory: Option<PathBuf>,
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#[clap(short, long, value_enum, default_value_t = Speed::Fast)]
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speed: Speed,
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#[clap(short, long, value_enum, default_value_t = Filter::Adaptive)]
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filter: Filter,
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}
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#[inline(never)]
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fn run_encode(
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args: &Args,
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dimensions: (u32, u32),
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color_type: png::ColorType,
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bit_depth: png::BitDepth,
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image: &[u8],
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) -> Vec<u8> {
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let mut reencoded = Vec::new();
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let mut encoder = png::Encoder::new(&mut reencoded, dimensions.0, dimensions.1);
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encoder.set_color(color_type);
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encoder.set_depth(bit_depth);
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encoder.set_compression(match args.speed {
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Speed::Fast => png::Compression::Fast,
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Speed::Default => png::Compression::Default,
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Speed::Best => png::Compression::Best,
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});
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encoder.set_filter(match args.filter {
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Filter::None => png::FilterType::NoFilter,
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Filter::Sub => png::FilterType::Sub,
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Filter::Up => png::FilterType::Up,
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Filter::Average => png::FilterType::Avg,
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Filter::Paeth => png::FilterType::Paeth,
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Filter::Adaptive => png::FilterType::Paeth,
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});
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encoder.set_adaptive_filter(match args.filter {
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Filter::Adaptive => png::AdaptiveFilterType::Adaptive,
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_ => png::AdaptiveFilterType::NonAdaptive,
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});
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let mut encoder = encoder.write_header().unwrap();
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encoder.write_image_data(&image).unwrap();
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encoder.finish().unwrap();
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reencoded
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}
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#[inline(never)]
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fn run_decode(image: &[u8], output: &mut [u8]) {
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let mut reader = Decoder::new(image).read_info().unwrap();
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reader.next_frame(output).unwrap();
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}
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fn main() {
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let mut total_uncompressed = 0;
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let mut total_compressed = 0;
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let mut total_pixels = 0;
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let mut total_encode_time = 0;
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let mut total_decode_time = 0;
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let args = Args::parse();
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println!(
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"{:45} Ratio Encode Decode",
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"Directory"
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);
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println!(
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"{:45}------- -------------------- --------------------",
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"---------"
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);
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let mut image2 = Vec::new();
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let mut pending = vec![args.directory.clone().unwrap_or(PathBuf::from("."))];
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while let Some(directory) = pending.pop() {
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let mut dir_uncompressed = 0;
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let mut dir_compressed = 0;
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let mut dir_pixels = 0;
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let mut dir_encode_time = 0;
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let mut dir_decode_time = 0;
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for entry in fs::read_dir(&directory).unwrap().flatten() {
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if entry.file_type().unwrap().is_dir() {
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pending.push(entry.path());
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continue;
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}
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match entry.path().extension() {
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Some(st) if st == "png" => {}
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_ => continue,
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}
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// Parse
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let data = fs::read(entry.path()).unwrap();
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let mut decoder = Decoder::new(&*data);
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if decoder.read_header_info().ok().map(|h| h.color_type)
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== Some(png::ColorType::Indexed)
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{
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decoder.set_transformations(
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png::Transformations::EXPAND | png::Transformations::STRIP_16,
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);
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}
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let mut reader = match decoder.read_info() {
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Ok(reader) => reader,
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Err(_) => continue,
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};
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let mut image = vec![0; reader.output_buffer_size()];
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let info = match reader.next_frame(&mut image) {
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Ok(info) => info,
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Err(_) => continue,
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};
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let (width, height) = (info.width, info.height);
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let bit_depth = info.bit_depth;
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let mut color_type = info.color_type;
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// qoibench expands grayscale to RGB, so we do the same.
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if bit_depth == png::BitDepth::Eight {
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if color_type == png::ColorType::Grayscale {
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image = image.into_iter().flat_map(|v| [v, v, v, 255]).collect();
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color_type = png::ColorType::Rgba;
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} else if color_type == png::ColorType::GrayscaleAlpha {
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image = image
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.chunks_exact(2)
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.flat_map(|v| [v[0], v[0], v[0], v[1]])
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.collect();
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color_type = png::ColorType::Rgba;
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}
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}
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// Re-encode
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let start = std::time::Instant::now();
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let reencoded = run_encode(&args, (width, height), color_type, bit_depth, &image);
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let elapsed = start.elapsed().as_nanos() as u64;
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// And decode again
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image2.resize(image.len(), 0);
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let start2 = std::time::Instant::now();
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run_decode(&reencoded, &mut image2);
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let elapsed2 = start2.elapsed().as_nanos() as u64;
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assert_eq!(image, image2);
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// Stats
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dir_uncompressed += image.len();
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dir_compressed += reencoded.len();
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dir_pixels += (width * height) as u64;
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dir_encode_time += elapsed;
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dir_decode_time += elapsed2;
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}
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if dir_uncompressed > 0 {
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println!(
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"{:45}{:6.2}%{:8} mps {:6.2} GiB/s {:8} mps {:6.2} GiB/s",
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directory.display(),
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100.0 * dir_compressed as f64 / dir_uncompressed as f64,
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dir_pixels * 1000 / dir_encode_time,
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dir_uncompressed as f64 / (dir_encode_time as f64 * 1e-9 * (1 << 30) as f64),
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dir_pixels * 1000 / dir_decode_time,
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dir_uncompressed as f64 / (dir_decode_time as f64 * 1e-9 * (1 << 30) as f64)
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);
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}
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total_uncompressed += dir_uncompressed;
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total_compressed += dir_compressed;
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total_pixels += dir_pixels;
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total_encode_time += dir_encode_time;
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total_decode_time += dir_decode_time;
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}
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println!();
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println!(
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"{:44}{:7.3}%{:8} mps {:6.3} GiB/s {:8} mps {:6.3} GiB/s",
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"Total",
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100.0 * total_compressed as f64 / total_uncompressed as f64,
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total_pixels * 1000 / total_encode_time,
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total_uncompressed as f64 / (total_encode_time as f64 * 1e-9 * (1 << 30) as f64),
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total_pixels * 1000 / total_decode_time,
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total_uncompressed as f64 / (total_decode_time as f64 * 1e-9 * (1 << 30) as f64)
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);
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}
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