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;
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extern crate unindent;
extern crate byteorder;
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#[macro_use]
extern crate uucore;
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mod multifilereader;
mod prn_int;
mod prn_char;
mod prn_float;
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use std::cmp;
use std::io::Write;
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use unindent::*;
use byteorder::*;
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use multifilereader::*;
use prn_int::*;
use prn_char::*;
use prn_float::*;
//This is available in some versions of std, but not all that we target.
macro_rules! hashmap {
($( $key: expr => $val: expr ),*) => {{
let mut map = ::std::collections::HashMap::new();
$( map.insert($key, $val); )*
map
}}
}
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static VERSION: &'static str = env!("CARGO_PKG_VERSION");
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#[derive(Debug)]
enum Radix { Decimal, Hexadecimal, Octal, Binary }
pub fn uumain(args: Vec<String>) -> i32 {
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");
opts.optopt("S", "strings",
("output strings of at least BYTES graphic chars. 3 is assumed when \
BYTES is not specified."),
"BYTES");
opts.optflag("a", "", "named characters, ignoring high-order bit");
opts.optflag("b", "", "octal bytes");
opts.optflag("c", "", "ASCII characters or backslash escapes");
opts.optflag("d", "", "unsigned decimal 2-byte units");
opts.optflag("o", "", "unsigned decimal 2-byte units");
opts.optflag("I", "", "decimal 2-byte units");
opts.optflag("L", "", "decimal 2-byte units");
opts.optflag("i", "", "decimal 2-byte units");
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opts.optflag("x", "", "hexadecimal 2-byte units");
opts.optflag("h", "", "hexadecimal 2-byte units");
opts.optflag("O", "", "octal 4-byte units");
opts.optflag("s", "", "decimal 4-byte units");
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opts.optflag("X", "", "hexadecimal 4-byte units");
opts.optflag("H", "", "hexadecimal 4-byte units");
opts.optflag("e", "", "floating point double precision (64-bit) units");
opts.optflag("f", "", "floating point single precision (32-bit) units");
opts.optflag("F", "", "floating point double precision (64-bit) units");
opts.optopt("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.");
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") {
let msg = unindent(&format!("
Usage:
{0} [OPTION]... [FILENAME]...
Displays data in various human-readable formats.", executable!()));
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println!("{}", opts.usage(&msg));
return 0;
}
if matches.opt_present("version") {
println!("{} {}", executable!(), VERSION);
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return 0;
}
let input_offset_base = match parse_radix(matches.opt_str("A")) {
Ok(r) => r,
Err(f) => {
disp_err!("Invalid -A/--address-radix\n{}", f);
return 1;
}
};
// Gather up file names - args which don't start with '-'
let stdnionly = [InputSource::Stdin];
let inputs = args[1..]
.iter()
.filter_map(|w| match w as &str {
"--" => Some(InputSource::Stdin),
o if o.starts_with("-") => None,
x => Some(InputSource::FileName(x)),
})
.collect::<Vec<_>>();
// If no input files named, use stdin.
let inputs = if inputs.len() == 0 {
&stdnionly[..]
} else {
&inputs[..]
};
// Gather up format flags, we don't use getopts becase we need keep them in order.
let flags = args[1..]
.iter()
.filter_map(|w| match w as &str {
"--" => None,
o if o.starts_with("-") => Some(&o[1..]),
_ => None,
})
.collect::<Vec<_>>();
// At the moment, char (-a & -c)formats need the driver to set up a
// line by inserting a different # of of spaces at the start.
struct OdFormater {
writer: FormatWriter,
offmarg: usize,
};
let oct = OdFormater {
writer: FormatWriter::IntWriter(print_item_oct), offmarg: 2
};
let hex = OdFormater {
writer: FormatWriter::IntWriter(print_item_hex), offmarg: 2
};
let dec_u = OdFormater {
writer: FormatWriter::IntWriter(print_item_dec_u), offmarg: 2
};
let dec_s = OdFormater {
writer: FormatWriter::IntWriter(print_item_dec_s), offmarg: 2
};
let a_char = OdFormater {
writer: FormatWriter::IntWriter(print_item_a), offmarg: 1
};
let c_char = OdFormater {
writer: FormatWriter::IntWriter(print_item_c), offmarg: 1
};
let flo32 = OdFormater {
writer: FormatWriter::FloatWriter(print_item_flo32), offmarg: 0
};
let flo64 = OdFormater {
writer: FormatWriter::FloatWriter(print_item_flo64), offmarg: 0
};
fn mkfmt(itembytes: usize, fmtspec: &OdFormater) -> OdFormat {
OdFormat {
itembytes: itembytes,
writer: fmtspec.writer,
offmarg: fmtspec.offmarg,
}
}
// TODO: -t fmts
let known_formats = hashmap![
"a" => (1, &a_char),
"B" => (2, &oct) ,
"b" => (1, &oct),
"c" => (1, &c_char),
"D" => (4, &dec_u),
"e" => (8, &flo64),
"F" => (8, &flo64),
"f" => (4, &flo32),
"H" => (4, &hex),
"X" => (4, &hex) ,
"o" => (2, &oct),
"x" => (2, &hex),
"h" => (2, &hex),
"I" => (2, &dec_s),
"L" => (2, &dec_s),
"i" => (2, &dec_s),
"O" => (4, &oct),
"s" => (2, &dec_u)
];
let mut formats = Vec::new();
for flag in flags.iter() {
match known_formats.get(flag) {
None => {} // not every option is a format
Some(r) => {
let (itembytes, fmtspec) = *r;
formats.push(mkfmt(itembytes, fmtspec))
}
}
}
if formats.is_empty() {
formats.push(mkfmt(2, &oct)); // 2 byte octal is the default
}
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let mut line_bytes = match matches.opt_default("w", "32") {
None => 16,
Some(s) => {
match s.parse::<usize>() {
Ok(i) => { i }
Err(_) => { 2 }
}
}
};
let min_bytes = formats.iter().fold(2, |max, next| cmp::max(max, next.itembytes));
if line_bytes % min_bytes != 0 {
show_warning!("invalid width {}; using {} instead", line_bytes, min_bytes);
line_bytes = min_bytes;
}
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odfunc(line_bytes, &input_offset_base, &inputs, &formats[..])
}
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fn odfunc(line_bytes: usize, input_offset_base: &Radix, fnames: &[InputSource], formats: &[OdFormat]) -> i32 {
let mut mf = MultifileReader::new(fnames);
let mut addr = 0;
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let mut bytes: Vec<u8> = vec![b'\x00'; line_bytes];
loop {
// print each line data (or multi-format raster of several lines describing the same data).
print_with_radix(input_offset_base, addr); // print offset
// if printing in multiple formats offset is printed only once
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match mf.f_read(bytes.as_mut_slice()) {
Ok(0) => {
print!("\n");
break;
}
Ok(n) => {
let mut first = true; // First line of a multi-format raster.
for f in formats {
if !first {
// this takes the space of the file offset on subsequent
// lines of multi-format rasters.
print!(" ");
}
first = false;
print!("{:>width$}", "", width = f.offmarg);// 4 spaces after offset - we print 2 more before each word
// not enough byte for a whole element, this should only happen on the last line.
if n % f.itembytes != 0 {
let b = n / f.itembytes;
// set zero bytes in the part of the buffer that will be used, but is not filled.
for i in n..(b + 1) * f.itembytes {
bytes[i] = 0;
}
}
let mut b = 0;
while b < n {
let nextb = b + f.itembytes;
match f.writer {
FormatWriter::IntWriter(func) => {
let p: u64 = match f.itembytes {
1 => {
bytes[b] as u64
}
2 => {
LittleEndian::read_u16(&bytes[b..nextb]) as u64
}
4 => {
LittleEndian::read_u32(&bytes[b..nextb]) as u64
}
8 => {
LittleEndian::read_u64(&bytes[b..nextb])
}
_ => { panic!("Invalid itembytes: {}", f.itembytes); }
};
func(p, f.itembytes);
}
FormatWriter::FloatWriter(func) => {
let p: f64 = match f.itembytes {
4 => {
LittleEndian::read_f32(&bytes[b..nextb]) as f64
}
8 => {
LittleEndian::read_f64(&bytes[b..nextb])
}
_ => { panic!("Invalid itembytes: {}", f.itembytes); }
};
func(p);
}
}
b = nextb;
}
print!("\n");
}
addr += n;
}
Err(_) => {
break;
}
};
}
if mf.any_err {
1
} else {
0
}
}
// For file byte offset printed at left margin.
fn parse_radix(radix_str: Option<String>) -> Result<Radix, &'static str> {
match radix_str {
None => Ok(Radix::Octal),
Some(s) => {
let st = s.into_bytes();
if st.len() != 1 {
Err("Radix must be one of [d, o, b, x]\n")
} else {
let radix: char = *(st.get(0)
.expect("byte string of length 1 lacks a 0th elem")) as char;
match radix {
'd' => Ok(Radix::Decimal),
'x' => Ok(Radix::Hexadecimal),
'o' => Ok(Radix::Octal),
'b' => Ok(Radix::Binary),
_ => Err("Radix must be one of [d, o, b, x]\n")
}
}
}
}
}
fn print_with_radix(r: &Radix, x: usize) {
// TODO(keunwoo): field widths should be based on sizeof(x), or chosen dynamically based on the
// expected range of address values. Binary in particular is not great here.
match *r {
Radix::Decimal => print!("{:07}", x),
Radix::Hexadecimal => print!("{:07X}", x),
Radix::Octal => print!("{:07o}", x),
Radix::Binary => print!("{:07b}", x)
}
}
#[derive(Clone, Copy)]
enum FormatWriter {
IntWriter(fn(u64, usize)),
FloatWriter(fn(f64)),
}
struct OdFormat {
itembytes: usize,
writer: FormatWriter,
offmarg: usize,
}