296 lines
9.8 KiB
Rust
296 lines
9.8 KiB
Rust
#![allow(non_upper_case_globals)]
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use std::fs::File;
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use std::io;
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use std::io::prelude::*;
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use std::path::{Path, PathBuf};
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use clap::Parser;
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use png::chunk;
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#[derive(Parser)]
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#[command(about, version)]
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struct Config {
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/// test quietly (output only errors)
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#[arg(short, long)]
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quiet: bool,
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/// test verbosely (print most chunk data)
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#[arg(short, long)]
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verbose: bool,
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/// print contents of tEXt/zTXt/iTXt chunks (can be used with -q)
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#[arg(short, long)]
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text: bool,
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paths: Vec<PathBuf>,
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}
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fn display_interlaced(i: bool) -> &'static str {
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if i {
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"interlaced"
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} else {
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"non-interlaced"
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}
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}
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fn display_image_type(bits: u8, color: png::ColorType) -> String {
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use png::ColorType::*;
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format!(
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"{}-bit {}",
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bits,
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match color {
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Grayscale => "grayscale",
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Rgb => "RGB",
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Indexed => "palette",
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GrayscaleAlpha => "grayscale+alpha",
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Rgba => "RGB+alpha",
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}
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)
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}
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// channels after expansion of tRNS
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fn final_channels(c: png::ColorType, trns: bool) -> u8 {
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use png::ColorType::*;
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match c {
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Grayscale => 1 + u8::from(trns),
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Rgb => 3,
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Indexed => 3 + u8::from(trns),
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GrayscaleAlpha => 2,
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Rgba => 4,
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}
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}
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fn check_image<P: AsRef<Path>>(c: &Config, fname: P) -> io::Result<()> {
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// TODO improve performance by reusing allocations from decoder
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use png::Decoded::*;
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let data = &mut vec![0; 10 * 1024][..];
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let mut reader = io::BufReader::new(File::open(&fname)?);
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let fname = fname.as_ref().to_string_lossy();
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let n = reader.read(data)?;
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let mut buf = &data[..n];
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let mut pos = 0;
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let mut decoder = png::StreamingDecoder::new();
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// Image data
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let mut width = 0;
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let mut height = 0;
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let mut color = png::ColorType::Grayscale;
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let mut bits = 0;
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let mut trns = false;
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let mut interlaced = false;
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let mut compressed_size = 0;
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let mut n_chunks = 0;
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let mut have_idat = false;
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macro_rules! c_ratio(
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// TODO add palette entries to compressed_size
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() => ({
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compressed_size as f32/(
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height as u64 *
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(width as u64 * final_channels(color, trns) as u64 * bits as u64 + 7)>>3
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) as f32
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});
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);
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let display_error = |err| -> Result<_, io::Error> {
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if c.verbose {
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println!(": {}", err);
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print!("ERRORS DETECTED");
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println!(" in {}", fname);
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} else {
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if !c.quiet {
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println!("ERROR: {}", fname)
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}
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print!("{}: ", fname);
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println!("{}", err);
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}
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Ok(())
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};
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if c.verbose {
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print!("File: ");
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print!("{}", fname);
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print!(" ({}) bytes", data.len())
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}
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loop {
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if buf.is_empty() {
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// circumvent borrow checker
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assert!(!data.is_empty());
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let n = reader.read(data)?;
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// EOF
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if n == 0 {
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println!("ERROR: premature end of file {}", fname);
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break;
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}
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buf = &data[..n];
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}
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match decoder.update(buf, None) {
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Ok((_, ChunkComplete(chunk::IEND))) => {
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if !have_idat {
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// This isn't beautiful. But it works.
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display_error(png::DecodingError::IoError(io::Error::new(
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io::ErrorKind::InvalidData,
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"IDAT chunk missing",
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)))?;
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break;
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}
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if !c.verbose && !c.quiet {
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print!("OK: {}", fname);
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println!(
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" ({}x{}, {}{}, {}, {:.1}%)",
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width,
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height,
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display_image_type(bits, color),
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(if trns { "+trns" } else { "" }),
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display_interlaced(interlaced),
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100.0 * (1.0 - c_ratio!())
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)
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} else if !c.quiet {
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println!();
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print!("No errors detected ");
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println!(
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"in {} ({} chunks, {:.1}% compression)",
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fname,
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n_chunks,
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100.0 * (1.0 - c_ratio!()),
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)
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}
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break;
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}
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Ok((n, res)) => {
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buf = &buf[n..];
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pos += n;
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match res {
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ChunkBegin(len, type_str) => {
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n_chunks += 1;
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if c.verbose {
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let chunk = type_str;
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println!();
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print!(" chunk ");
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print!("{:?}", chunk);
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print!(
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" at offset {:#07x}, length {}",
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pos - 4, // subtract chunk name length
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len
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)
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}
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match type_str {
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chunk::IDAT => {
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have_idat = true;
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compressed_size += len
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}
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chunk::tRNS => {
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trns = true;
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}
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_ => (),
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}
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}
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ChunkComplete(chunk::IHDR) => {
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width = decoder.info().unwrap().width;
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height = decoder.info().unwrap().height;
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bits = decoder.info().unwrap().bit_depth as u8;
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color = decoder.info().unwrap().color_type;
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interlaced = decoder.info().unwrap().interlaced;
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if c.verbose {
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println!();
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print!(
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" {} x {} image, {}{}, {}",
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width,
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height,
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display_image_type(bits, color),
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(if trns { "+trns" } else { "" }),
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display_interlaced(interlaced),
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);
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}
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}
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ChunkComplete(chunk::acTL) => {
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let actl = decoder.info().unwrap().animation_control.unwrap();
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println!();
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print!(" {} frames, {} plays", actl.num_frames, actl.num_plays,);
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}
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ChunkComplete(chunk::fdAT) => {
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let fctl = decoder.info().unwrap().frame_control.unwrap();
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println!();
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println!(
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" sequence #{}, {} x {} pixels @ ({}, {})",
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fctl.sequence_number,
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fctl.width,
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fctl.height,
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fctl.x_offset,
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fctl.y_offset,
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/*fctl.delay_num,
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fctl.delay_den,
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fctl.dispose_op,
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fctl.blend_op,*/
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);
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print!(
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" {}/{} s delay, dispose: {}, blend: {}",
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fctl.delay_num,
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if fctl.delay_den == 0 {
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100
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} else {
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fctl.delay_den
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},
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fctl.dispose_op,
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fctl.blend_op,
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);
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}
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ImageData => {
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//println!("got {} bytes of image data", data.len())
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}
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_ => (),
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}
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//println!("{} {:?}", n, res)
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}
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Err(err) => {
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let _ = display_error(err);
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break;
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}
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}
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}
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if c.text {
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println!("Parsed tEXt chunks:");
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for text_chunk in &decoder.info().unwrap().uncompressed_latin1_text {
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println!("{:#?}", text_chunk);
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}
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println!("Parsed zTXt chunks:");
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for text_chunk in &decoder.info().unwrap().compressed_latin1_text {
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let mut cloned_text_chunk = text_chunk.clone();
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cloned_text_chunk.decompress_text()?;
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println!("{:#?}", cloned_text_chunk);
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}
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println!("Parsed iTXt chunks:");
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for text_chunk in &decoder.info().unwrap().utf8_text {
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let mut cloned_text_chunk = text_chunk.clone();
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cloned_text_chunk.decompress_text()?;
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println!("{:#?}", cloned_text_chunk);
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}
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}
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Ok(())
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}
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fn main() {
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let config = Config::parse();
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for file in &config.paths {
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let result = if let Some(glob) = file.to_str().filter(|n| n.contains('*')) {
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glob::glob(glob)
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.map_err(|err| io::Error::new(io::ErrorKind::Other, err))
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.and_then(|mut glob| {
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glob.try_for_each(|entry| {
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entry
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.map_err(|err| io::Error::new(io::ErrorKind::Other, err))
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.and_then(|file| check_image(&config, file))
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})
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})
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} else {
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check_image(&config, &file)
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};
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result.unwrap_or_else(|err| {
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println!("{}: {}", file.display(), err);
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std::process::exit(1)
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});
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}
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}
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