coreutils/src/od/od.rs

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#![crate_name = "uu_od"]
/*
* This file is part of the uutils coreutils package.
*
* (c) Ben Hirsch <benhirsch24@gmail.com>
*
* For the full copyright and license information, please view the LICENSE
* file that was distributed with this source code.
*/
extern crate getopts;
extern crate byteorder;
extern crate half;
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#[macro_use]
extern crate uucore;
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mod multifilereader;
mod partialreader;
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mod peekreader;
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mod byteorder_io;
mod formatteriteminfo;
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mod prn_int;
mod prn_char;
mod prn_float;
mod parse_nrofbytes;
mod parse_formats;
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mod parse_inputs;
mod inputoffset;
mod inputdecoder;
mod output_info;
#[cfg(test)]
mod mockstream;
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use std::cmp;
use std::io::Write;
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use byteorder_io::*;
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use multifilereader::*;
use partialreader::*;
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use peekreader::*;
use formatteriteminfo::*;
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use parse_nrofbytes::parse_number_of_bytes;
use parse_formats::{parse_format_flags, ParsedFormatterItemInfo};
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use prn_char::format_ascii_dump;
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use parse_inputs::{parse_inputs, CommandLineInputs};
use inputoffset::{InputOffset, Radix};
use inputdecoder::{InputDecoder,MemoryDecoder};
use output_info::OutputInfo;
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static VERSION: &'static str = env!("CARGO_PKG_VERSION");
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const PEEK_BUFFER_SIZE: usize = 4; // utf-8 can be 4 bytes
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static USAGE: &'static str =
r#"Usage:
od [OPTION]... [--] [FILENAME]...
od [-abcdDefFhHiIlLoOsxX] [FILENAME] [[+][0x]OFFSET[.][b]]
od --traditional [OPTION]... [FILENAME] [[+][0x]OFFSET[.][b] [[+][0x]LABEL[.][b]]]
Displays data in various human-readable formats. If multiple formats are
specified, the output will contain all formats in the order they appear on the
commandline. Each format will be printed on a new line. Only the line
containing the first format will be prefixed with the offset.
If no filename is specified, or it is "-", stdin will be used. After a "--", no
more options will be recognised. This allows for filenames starting with a "-".
If a filename is a valid number which can be used as an offset in the second
form, you can force it to be recognised as a filename if you include an option
like "-j0", which is only valid in the first form.
RADIX is one of o,d,x,n for octal, decimal, hexadecimal or none.
BYTES is decimal by default, octal if prefixed with a "0", or hexadecimal if
prefixed with "0x". The suffixes b, KB, K, MB, M, GB, G, will multiply the
number with 512, 1000, 1024, 1000^2, 1024^2, 1000^3, 1024^3, 1000^2, 1024^2.
OFFSET and LABEL are octal by default, hexadecimal if prefixed with "0x" or
decimal if a "." suffix is added. The "b" suffix will multiply with 512.
TYPE contains one or more format specifications consisting of:
a for printable 7-bits ASCII
c for utf-8 characters or octal for undefined characters
d[SIZE] for signed decimal
f[SIZE] for floating point
o[SIZE] for octal
u[SIZE] for unsigned decimal
x[SIZE] for hexadecimal
SIZE is the number of bytes which can be the number 1, 2, 4, 8 or 16,
or C, I, S, L for 1, 2, 4, 8 bytes for integer types,
or F, D, L for 4, 8, 16 bytes for floating point.
Any type specification can have a "z" suffic, which will add a ASCII dump at
the end of the line.
If an error occurred, a diagnostic message will be printed to stderr, and the
exitcode will be non-zero."#;
fn create_getopts_options() -> getopts::Options {
let mut opts = getopts::Options::new();
opts.optopt("A", "address-radix",
"Select the base in which file offsets are printed.", "RADIX");
opts.optopt("j", "skip-bytes",
"Skip bytes input bytes before formatting and writing.", "BYTES");
opts.optopt("N", "read-bytes",
"limit dump to BYTES input bytes", "BYTES");
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opts.optopt("", "endian", "byte order to use for multi-byte formats", "big|little");
opts.optopt("S", "strings",
("output strings of at least BYTES graphic chars. 3 is assumed when \
BYTES is not specified."),
"BYTES");
opts.optflagmulti("a", "", "named characters, ignoring high-order bit");
opts.optflagmulti("b", "", "octal bytes");
opts.optflagmulti("c", "", "ASCII characters or backslash escapes");
opts.optflagmulti("d", "", "unsigned decimal 2-byte units");
opts.optflagmulti("D", "", "unsigned decimal 4-byte units");
opts.optflagmulti("o", "", "octal 2-byte units");
opts.optflagmulti("I", "", "decimal 8-byte units");
opts.optflagmulti("L", "", "decimal 8-byte units");
opts.optflagmulti("i", "", "decimal 4-byte units");
opts.optflagmulti("l", "", "decimal 8-byte units");
opts.optflagmulti("x", "", "hexadecimal 2-byte units");
opts.optflagmulti("h", "", "hexadecimal 2-byte units");
opts.optflagmulti("O", "", "octal 4-byte units");
opts.optflagmulti("s", "", "decimal 2-byte units");
opts.optflagmulti("X", "", "hexadecimal 4-byte units");
opts.optflagmulti("H", "", "hexadecimal 4-byte units");
opts.optflagmulti("e", "", "floating point double precision (64-bit) units");
opts.optflagmulti("f", "", "floating point single precision (32-bit) units");
opts.optflagmulti("F", "", "floating point double precision (64-bit) units");
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opts.optmulti("t", "format", "select output format or formats", "TYPE");
opts.optflag("v", "output-duplicates", "do not use * to mark line suppression");
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opts.optflagopt("w", "width",
("output BYTES bytes per output line. 32 is implied when BYTES is not \
specified."),
"BYTES");
opts.optflag("h", "help", "display this help and exit.");
opts.optflag("", "version", "output version information and exit.");
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opts.optflag("", "traditional", "compatibility mode with one input, offset and label.");
opts
}
struct OdOptions {
byte_order: ByteOrder,
skip_bytes: usize,
read_bytes: Option<usize>,
label: Option<usize>,
input_strings: Vec<String>,
formats: Vec<ParsedFormatterItemInfo>,
line_bytes: usize,
output_duplicates: bool,
radix: Radix,
}
impl OdOptions {
fn new(matches: getopts::Matches, args: Vec<String>) -> Result<OdOptions, String> {
let byte_order = match matches.opt_str("endian").as_ref().map(String::as_ref) {
None => { ByteOrder::Native },
Some("little") => { ByteOrder::Little },
Some("big") => { ByteOrder::Big },
Some(s) => {
return Err(format!("Invalid argument --endian={}", s));
}
};
let mut skip_bytes = match matches.opt_default("skip-bytes", "0") {
None => 0,
Some(s) => {
match parse_number_of_bytes(&s) {
Ok(i) => { i }
Err(_) => {
return Err(format!("Invalid argument --skip-bytes={}", s));
}
}
}
};
let mut label: Option<usize> = None;
let input_strings = match parse_inputs(&matches) {
Ok(CommandLineInputs::FileNames(v)) => v,
Ok(CommandLineInputs::FileAndOffset((f, s, l))) => {
skip_bytes = s;
label = l;
vec![f]
},
Err(e) => {
return Err(format!("Invalid inputs: {}", e));
}
};
let formats = match parse_format_flags(&args) {
Ok(f) => f,
Err(e) => {
return Err(format!("{}", e));
}
};
let mut line_bytes = match matches.opt_default("w", "32") {
None => 16,
Some(s) => {
match s.parse::<usize>() {
Ok(i) => { i }
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Err(_) => { 0 }
}
}
};
let min_bytes = formats.iter().fold(1, |max, next| cmp::max(max, next.formatter_item_info.byte_size));
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if line_bytes == 0 || line_bytes % min_bytes != 0 {
show_warning!("invalid width {}; using {} instead", line_bytes, min_bytes);
line_bytes = min_bytes;
}
let output_duplicates = matches.opt_present("v");
let read_bytes = match matches.opt_str("read-bytes") {
None => None,
Some(s) => {
match parse_number_of_bytes(&s) {
Ok(i) => { Some(i) }
Err(_) => {
return Err(format!("Invalid argument --read-bytes={}", s));
}
}
}
};
let radix = match matches.opt_str("A") {
None => Radix::Octal,
Some(s) => {
let st = s.into_bytes();
if st.len() != 1 {
return Err(format!("Radix must be one of [d, o, n, x]"))
} else {
let radix: char = *(st.get(0)
.expect("byte string of length 1 lacks a 0th elem")) as char;
match radix {
'd' => Radix::Decimal,
'x' => Radix::Hexadecimal,
'o' => Radix::Octal,
'n' => Radix::NoPrefix,
_ => return Err(format!("Radix must be one of [d, o, n, x]"))
}
}
}
};
Ok(OdOptions {
byte_order: byte_order,
skip_bytes: skip_bytes,
read_bytes: read_bytes,
label: label,
input_strings: input_strings,
formats: formats,
line_bytes: line_bytes,
output_duplicates: output_duplicates,
radix: radix,
})
}
}
/// parses and validates commandline parameters, prepares data structures,
/// opens the input and calls `odfunc` to process the input.
pub fn uumain(args: Vec<String>) -> i32 {
let opts = create_getopts_options();
let matches = match opts.parse(&args[1..]) {
Ok(m) => m,
Err(f) => {
disp_err!("{}", f);
return 1;
}
};
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if matches.opt_present("h") {
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println!("{}", opts.usage(&USAGE));
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return 0;
}
if matches.opt_present("version") {
println!("{} {}", executable!(), VERSION);
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return 0;
}
let od_options = match OdOptions::new(matches, args) {
Err(s) => {
disp_err!("{}", s);
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return 1;
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},
Ok(o) => o,
};
let mut input_offset = InputOffset::new(od_options.radix, od_options.skip_bytes,
od_options.label);
let mut input = open_input_peek_reader(&od_options.input_strings,
od_options.skip_bytes, od_options.read_bytes);
let mut input_decoder = InputDecoder::new(&mut input, od_options.line_bytes,
PEEK_BUFFER_SIZE, od_options.byte_order);
let output_info = OutputInfo::new(od_options.line_bytes, &od_options.formats[..],
od_options.output_duplicates);
odfunc(&mut input_offset, &mut input_decoder, &output_info)
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}
/// Loops through the input line by line, calling print_bytes to take care of the output.
fn odfunc<I>(input_offset: &mut InputOffset, input_decoder: &mut InputDecoder<I>,
output_info: &OutputInfo) -> i32
where I: PeekRead + HasError {
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let mut duplicate_line = false;
let mut previous_bytes: Vec<u8> = Vec::new();
let line_bytes = output_info.byte_size_line;
loop {
// print each line data (or multi-format raster of several lines describing the same data).
match input_decoder.peek_read() {
Ok(mut memory_decoder) => {
let length = memory_decoder.length();
if length == 0 {
input_offset.print_final_offset();
break;
}
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// not enough byte for a whole element, this should only happen on the last line.
if length != line_bytes {
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// set zero bytes in the part of the buffer that will be used, but is not filled.
let mut max_used = length + output_info.byte_size_block;
if max_used > line_bytes {
max_used = line_bytes;
}
memory_decoder.zero_out_buffer(length, max_used);
}
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if !output_info.output_duplicates
&& length == line_bytes
&& memory_decoder.get_buffer(0) == &previous_bytes[..] {
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if !duplicate_line {
duplicate_line = true;
println!("*");
}
} else {
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duplicate_line = false;
if length == line_bytes {
// save a copy of the input unless it is the last line
memory_decoder.clone_buffer(&mut previous_bytes);
}
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print_bytes(&input_offset.format_byte_offset(), &memory_decoder,
&output_info);
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}
input_offset.increase_position(length);
}
Err(e) => {
show_error!("{}", e);
input_offset.print_final_offset();
return 1;
}
};
}
if input_decoder.has_error() {
1
} else {
0
}
}
/// Outputs a single line of input, into one or more lines human readable output.
fn print_bytes(prefix: &str, input_decoder: &MemoryDecoder, output_info: &OutputInfo) {
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let mut first = true; // First line of a multi-format raster.
for f in output_info.spaced_formatters_iter() {
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let mut output_text = String::new();
let mut b = 0;
while b < input_decoder.length() {
output_text.push_str(&format!("{:>width$}",
"",
width = f.spacing[b % output_info.byte_size_block]));
match f.formatter_item_info.formatter {
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FormatWriter::IntWriter(func) => {
let p = input_decoder.read_uint(b, f.formatter_item_info.byte_size);
output_text.push_str(&func(p));
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}
FormatWriter::FloatWriter(func) => {
let p = input_decoder.read_float(b, f.formatter_item_info.byte_size);
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output_text.push_str(&func(p));
}
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FormatWriter::MultibyteWriter(func) => {
output_text.push_str(&func(input_decoder.get_full_buffer(b)));
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}
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}
b += f.formatter_item_info.byte_size;
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}
if f.add_ascii_dump {
let missing_spacing = output_info.print_width_line.saturating_sub(output_text.chars().count());
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output_text.push_str(&format!("{:>width$} {}",
"",
format_ascii_dump(input_decoder.get_buffer(0)),
width = missing_spacing));
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}
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if first {
print!("{}", prefix); // print offset
// if printing in multiple formats offset is printed only once
first = false;
} else {
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// this takes the space of the file offset on subsequent
// lines of multi-format rasters.
print!("{:>width$}", "", width=prefix.chars().count());
}
print!("{}\n", output_text);
}
}
/// returns a reader implementing `PeekRead + Read + HasError` providing the combined input
///
/// `skip_bytes` is the number of bytes skipped from the input
/// `read_bytes` is an optinal limit to the number of bytes to read
fn open_input_peek_reader<'a>(input_strings: &'a Vec<String>, skip_bytes: usize,
read_bytes: Option<usize>) -> PeekReader<PartialReader<MultifileReader<'a>>> {
// should return "impl PeekRead + Read + HasError" when supported in (stable) rust
let inputs = input_strings
.iter()
.map(|w| match w as &str {
"-" => InputSource::Stdin,
x => InputSource::FileName(x),
})
.collect::<Vec<_>>();
let mf = MultifileReader::new(inputs);
let pr = PartialReader::new(mf, skip_bytes, read_bytes);
let input = PeekReader::new(pr);
input
}