465 lines
15 KiB
Rust
465 lines
15 KiB
Rust
#[cfg(not(feature = "parallel"))]
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mod rayon;
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#[cfg(feature = "zopfli")]
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use std::num::NonZeroU64;
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use std::{
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ffi::{OsStr, OsString},
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fs::DirBuilder,
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io::Write,
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path::PathBuf,
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process::ExitCode,
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time::Duration,
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};
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use clap::ArgMatches;
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mod cli;
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use indexmap::IndexSet;
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use log::{Level, LevelFilter, error, warn};
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#[cfg(feature = "zopfli")]
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use oxipng::ZopfliOptions;
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use oxipng::{Deflater, FilterStrategy, InFile, Options, OutFile, PngError, StripChunks};
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use rayon::prelude::*;
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use crate::cli::DISPLAY_CHUNKS;
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fn main() -> ExitCode {
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let matches = cli::build_command()
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// Set the value parser for filters which isn't appropriate to do in the build_command function
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.mut_arg("filters", |arg| {
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arg.value_parser(|x: &str| {
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parse_numeric_range_opts(x, 0, 9).map_err(|_| "Invalid option for filters")
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})
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})
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.after_help("Run `oxipng --help` to see full details of all options")
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.after_long_help("")
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.get_matches_from(std::env::args());
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let (out_file, out_dir, opts) = match parse_opts_into_struct(&matches) {
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Ok(x) => x,
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Err(x) => {
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error!("{x}");
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return ExitCode::FAILURE;
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}
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};
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let files = collect_files(
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#[cfg(windows)]
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matches
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.get_many::<PathBuf>("files")
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.unwrap()
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.cloned()
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.flat_map(apply_glob_pattern)
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.collect(),
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#[cfg(not(windows))]
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matches
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.get_many::<PathBuf>("files")
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.unwrap()
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.cloned()
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.collect(),
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&out_dir,
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&out_file,
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matches.get_flag("recursive"),
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true,
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);
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let parallel_files = matches.get_flag("parallel-files");
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let summary = if parallel_files {
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files
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.into_par_iter()
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.map(|(input, output)| process_file(&input, &output, &opts))
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.min()
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} else {
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files
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.into_iter()
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.map(|(input, output)| process_file(&input, &output, &opts))
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.min()
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};
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match summary.unwrap_or(OptimizationResult::Skipped) {
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OptimizationResult::Ok => ExitCode::SUCCESS,
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OptimizationResult::Failed => ExitCode::FAILURE,
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OptimizationResult::Skipped => ExitCode::from(3),
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}
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}
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#[derive(Eq, PartialEq, Ord, PartialOrd)]
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enum OptimizationResult {
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Ok,
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Failed,
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Skipped,
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}
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fn collect_files(
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files: Vec<PathBuf>,
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out_dir: &Option<PathBuf>,
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out_file: &OutFile,
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recursive: bool,
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top_level: bool, //explicitly specify files
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) -> Vec<(InFile, OutFile)> {
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let mut in_out_pairs = Vec::new();
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let allow_stdin = top_level && files.len() == 1;
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for input in files {
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let using_stdin = allow_stdin && input.to_str() == Some("-");
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if !using_stdin && input.is_dir() {
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if recursive {
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match input.read_dir() {
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Ok(dir) => {
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let files = dir.filter_map(|x| x.ok().map(|x| x.path())).collect();
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in_out_pairs
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.extend(collect_files(files, out_dir, out_file, recursive, false));
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}
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Err(e) => {
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warn!("{}: {}", input.display(), e);
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}
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}
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} else {
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warn!("{} is a directory, skipping", input.display());
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}
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continue;
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}
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let out_file =
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if let (Some(out_dir), &OutFile::Path { preserve_attrs, .. }) = (out_dir, out_file) {
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let path = Some(out_dir.join(input.file_name().unwrap()));
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OutFile::Path {
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path,
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preserve_attrs,
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}
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} else {
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(*out_file).clone()
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};
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let in_file = if using_stdin {
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InFile::StdIn
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} else {
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// Skip non png files if not given on top level
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if !top_level && {
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let extension = input.extension().map(OsStr::to_ascii_lowercase);
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extension != Some(OsString::from("png"))
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&& extension != Some(OsString::from("apng"))
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} {
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continue;
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}
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InFile::Path(input)
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};
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in_out_pairs.push((in_file, out_file));
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}
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in_out_pairs
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}
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#[cfg(windows)]
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fn apply_glob_pattern(path: PathBuf) -> Vec<PathBuf> {
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let matches = path
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.to_str()
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// Use MatchOptions::default() to disable case-sensitivity
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.and_then(|pattern| glob::glob_with(pattern, glob::MatchOptions::default()).ok())
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.map(|paths| paths.flatten().collect::<Vec<_>>());
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match matches {
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Some(paths) if !paths.is_empty() => paths,
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_ => vec![path],
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}
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}
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fn parse_opts_into_struct(
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matches: &ArgMatches,
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) -> Result<(OutFile, Option<PathBuf>, Options), String> {
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let log_level = match matches.get_count("verbose") {
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_ if matches.get_flag("quiet") => LevelFilter::Off,
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0 => LevelFilter::Info,
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1 => LevelFilter::Debug,
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_ => LevelFilter::Trace,
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};
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env_logger::builder()
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.filter_module(module_path!(), log_level)
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.format(|buf, record| {
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match record.level() {
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Level::Error | Level::Warn => {
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let style = buf.default_level_style(record.level());
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writeln!(buf, "{style}{}{style:#}", record.args())
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}
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// Leave info, debug and trace unstyled
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_ => writeln!(buf, "{}", record.args()),
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}
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})
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.init();
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let mut opts = match matches.get_one::<String>("optimization") {
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None => Options::default(),
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Some(x) if x == "max" => Options::max_compression(),
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Some(level) => Options::from_preset(level.parse::<u8>().unwrap()),
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};
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// Get custom brute settings and rebuild the filter set to apply them
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let mut brute_lines = matches.get_one::<usize>("brute-lines").copied();
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let mut brute_level = matches.get_one::<i64>("brute-level").map(|x| *x as u8);
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let mut new_filters = IndexSet::new();
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for mut f in opts.filters.drain(..) {
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if let FilterStrategy::Brute { num_lines, level } = &mut f {
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*num_lines = brute_lines.unwrap_or(*num_lines);
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*level = brute_level.unwrap_or(*level);
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// If custom settings were not given, we still need to retain the default values
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// from the preset so we can re-apply them if the filters are overridden below
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brute_lines = Some(*num_lines);
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brute_level = Some(*level);
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}
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new_filters.insert(f);
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}
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opts.filters = new_filters;
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if let Some(x) = matches.get_one::<IndexSet<u8>>("filters") {
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opts.filters = x
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.iter()
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.map(|&f| match f {
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0..=4 => FilterStrategy::Basic(f.try_into().unwrap()),
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5 => FilterStrategy::MinSum,
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6 => FilterStrategy::Entropy,
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7 => FilterStrategy::Bigrams,
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8 => FilterStrategy::BigEnt,
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9 => FilterStrategy::Brute {
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num_lines: brute_lines.unwrap_or(3),
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level: brute_level.unwrap_or(1),
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},
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_ => unreachable!(),
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})
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.collect();
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}
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if let Some(&num) = matches.get_one::<u64>("timeout") {
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opts.timeout = Some(Duration::from_secs(num));
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}
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let out_dir = if let Some(path) = matches.get_one::<PathBuf>("output_dir") {
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if !path.exists() {
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match DirBuilder::new().recursive(true).create(path) {
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Ok(()) => (),
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Err(x) => return Err(format!("Could not create output directory {x}")),
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}
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} else if !path.is_dir() {
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return Err(format!(
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"{} is an existing file (not a directory), cannot create directory",
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path.display()
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));
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}
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Some(path.to_owned())
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} else {
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None
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};
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let out_file = if matches.get_flag("dry-run") {
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OutFile::None
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} else if matches.get_flag("stdout") {
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OutFile::StdOut
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} else {
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OutFile::Path {
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path: matches.get_one::<PathBuf>("output_file").cloned(),
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preserve_attrs: matches.get_flag("preserve"),
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}
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};
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opts.optimize_alpha = matches.get_flag("alpha");
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opts.scale_16 = matches.get_flag("scale16");
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// The default value for fast depends on the preset - make sure we don't change when not provided
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if matches.get_flag("fast") {
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opts.fast_evaluation = matches.get_flag("fast");
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}
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opts.force = matches.get_flag("force");
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opts.fix_errors = matches.get_flag("fix");
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opts.max_decompressed_size = matches.get_one::<u64>("max-size").map(|&x| x as usize);
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opts.bit_depth_reduction = !matches.get_flag("no-bit-reduction");
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opts.color_type_reduction = !matches.get_flag("no-color-reduction");
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opts.palette_reduction = !matches.get_flag("no-palette-reduction");
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opts.grayscale_reduction = !matches.get_flag("no-grayscale-reduction");
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if matches.get_flag("no-reductions") {
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opts.bit_depth_reduction = false;
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opts.color_type_reduction = false;
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opts.palette_reduction = false;
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opts.grayscale_reduction = false;
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opts.interlace = None;
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}
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opts.idat_recoding = !matches.get_flag("no-recoding");
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if let Some(x) = matches.get_one::<String>("interlace") {
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opts.interlace = match x.as_str() {
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"off" | "0" => Some(false),
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"on" | "1" => Some(true),
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_ => None, // keep
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};
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}
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if let Some(keep) = matches.get_one::<String>("keep") {
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let mut keep_display = false;
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let mut names = keep
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.split(',')
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.filter_map(|name| {
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if name == "display" {
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keep_display = true;
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return None;
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}
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Some(parse_chunk_name(name))
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})
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.collect::<Result<IndexSet<_>, _>>()?;
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if keep_display {
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names.extend(DISPLAY_CHUNKS.iter().copied());
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}
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opts.strip = StripChunks::Keep(names);
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}
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if let Some(strip) = matches.get_one::<String>("strip") {
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if strip == "safe" {
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opts.strip = StripChunks::Safe;
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} else if strip == "all" {
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opts.strip = StripChunks::All;
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} else {
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const FORBIDDEN_CHUNKS: [[u8; 4]; 5] =
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[*b"IHDR", *b"IDAT", *b"tRNS", *b"PLTE", *b"IEND"];
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let names = strip
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.split(',')
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.map(|x| {
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if x == "safe" || x == "all" {
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return Err(
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"'safe' or 'all' presets for --strip should be used by themselves"
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.to_owned(),
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);
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}
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let name = parse_chunk_name(x)?;
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if FORBIDDEN_CHUNKS.contains(&name) {
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return Err(format!("{x} chunk is not allowed to be stripped"));
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}
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Ok(name)
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})
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.collect::<Result<_, _>>()?;
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opts.strip = StripChunks::Strip(names);
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}
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}
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if matches.get_flag("strip-safe") {
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opts.strip = StripChunks::Safe;
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}
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#[cfg(feature = "zopfli")]
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if matches.get_flag("zopfli") {
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let iteration_count = *matches.get_one::<NonZeroU64>("iterations").unwrap();
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let iterations_without_improvement = *matches
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.get_one::<NonZeroU64>("iterations-without-improvement")
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.unwrap_or(&NonZeroU64::MAX);
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opts.deflater = Deflater::Zopfli(ZopfliOptions {
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iteration_count,
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iterations_without_improvement,
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..Default::default()
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});
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}
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if let (Deflater::Libdeflater { compression }, Some(x)) =
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(&mut opts.deflater, matches.get_one::<i64>("compression"))
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{
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*compression = *x as u8;
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}
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#[cfg(feature = "parallel")]
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if let Some(&threads) = matches.get_one::<usize>("threads") {
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rayon::ThreadPoolBuilder::new()
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.num_threads(threads)
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.build_global()
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.map_err(|err| err.to_string())?;
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}
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Ok((out_file, out_dir, opts))
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}
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fn parse_chunk_name(name: &str) -> Result<[u8; 4], String> {
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name.trim()
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.as_bytes()
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.try_into()
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.map_err(|_| format!("Invalid chunk name {name}"))
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}
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fn parse_numeric_range_opts(
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input: &str,
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min_value: u8,
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max_value: u8,
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) -> Result<IndexSet<u8>, String> {
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const ERROR_MESSAGE: &str = "Not a valid input";
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let mut items = IndexSet::new();
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// one value
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if let Ok(one_value) = input.parse::<u8>() {
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if (min_value <= one_value) && (one_value <= max_value) {
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items.insert(one_value);
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return Ok(items);
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}
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}
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// a range ("A-B")
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let range_values = input.split('-').collect::<Vec<&str>>();
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if range_values.len() == 2 {
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let first_opt = range_values[0].parse::<u8>();
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let second_opt = range_values[1].parse::<u8>();
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if let (Ok(first), Ok(second)) = (first_opt, second_opt) {
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if min_value <= first && first < second && second <= max_value {
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for i in first..=second {
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items.insert(i);
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}
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return Ok(items);
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}
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}
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return Err(ERROR_MESSAGE.to_owned());
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}
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// a list ("A,B[,…]")
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let list_items = input.split(',').collect::<Vec<&str>>();
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if list_items.len() > 1 {
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for value in list_items {
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if let Ok(value_int) = value.parse::<u8>() {
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if (min_value <= value_int)
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&& (value_int <= max_value)
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&& !items.contains(&value_int)
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{
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items.insert(value_int);
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continue;
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}
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}
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return Err(ERROR_MESSAGE.to_owned());
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}
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return Ok(items);
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}
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Err(ERROR_MESSAGE.to_owned())
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}
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fn process_file(input: &InFile, output: &OutFile, opts: &Options) -> OptimizationResult {
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if let (Some(max_size), InFile::Path(path)) = (opts.max_decompressed_size, input) {
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if path.metadata().is_ok_and(|m| m.len() > max_size as u64) {
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warn!("{input}: Skipped: File exceeds the maximum size ({max_size} bytes)");
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return OptimizationResult::Skipped;
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}
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}
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match oxipng::optimize(input, output, opts) {
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// For optimizing single files, this will return the correct exit code always.
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// For recursive optimization, the correct choice is a bit subjective.
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// We're choosing to return a 0 exit code if ANY file in the set
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// runs correctly.
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// The reason for this is that recursion may pick up files that are not
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// PNG files, and return an error for them.
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// We don't really want to return an error code for those files.
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Ok(_) => OptimizationResult::Ok,
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Err(e @ PngError::C2PAMetadataPreventsChanges | e @ PngError::InflatedDataTooLong(_)) => {
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warn!("{input}: Skipped: {e}");
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OptimizationResult::Skipped
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}
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Err(e) => {
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error!("{input}: {e}");
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OptimizationResult::Failed
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}
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}
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}
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