use super::Cmd; use bitflags::BitFlags; use clap::{Arg, ArgAction, ArgMatches, Command}; use std::{ cmp, error::Error, fmt::{self, Write}, fs, io::{stdin, Read}, ops::{AddAssign, BitAnd, BitAndAssign, BitOr, BitOrAssign}, str::FromStr, }; #[derive(Debug)] pub struct Wc; impl Cmd for Wc { fn cli(&self) -> clap::Command { Command::new("wc") .version(env!("CARGO_PKG_VERSION")) .author("Nathan Fisher") .about("Print newline, word, and byte counts for each file") .args([ Arg::new("INPUT") .help("The input file to use") .num_args(1..), Arg::new("BYTES") .help("Print the byte counts") .short('c') .long("bytes") .action(ArgAction::SetTrue), Arg::new("CHARS") .help("Print the character counts") .short('m') .long("chars") .action(ArgAction::SetTrue), Arg::new("LINES") .help("Print the line counts") .short('l') .long("lines") .action(ArgAction::SetTrue), Arg::new("MAX") .help("Print the maximum display width") .short('L') .long("max-line-length") .action(ArgAction::SetTrue), Arg::new("WORDS") .help("Print the word counts") .short('w') .long("words") .action(ArgAction::SetTrue), ]) } fn run(&self, matches: &ArgMatches) -> Result<(), Box> { let mut flags = 0; for arg in &["LINES", "WORDS", "CHARS", "BYTES", "MAX"] { if matches.get_flag(arg) { flags |= arg.parse::()?; } } if flags == 0 { flags = 0b1011; } let files: Vec<_> = match matches.get_many::("INPUT") { Some(c) => c.map(|x| x.to_owned()).collect(), None => vec!["-".to_string()], }; let mut totals = Values { name: "Total", ..Values::default() }; files .iter() .try_for_each(|f| get_values(f, &mut totals, flags))?; if files.len() > 1 { totals.print_values(flags)?; } Ok(()) } fn path(&self) -> Option { Some(shitbox::Path::UsrBin) } } fn get_values<'a>( file: &'a str, totals: &mut Values<'a>, flags: u32, ) -> Result<(), Box> { let contents = if file == "-" { let mut buf = String::new(); stdin().read_to_string(&mut buf)?; buf } else { fs::read_to_string(file)? }; let mut f = Values { name: file, ..Values::default() }; if flags.contains(Flags::Lines) { f.lines = contents.lines().count(); } if flags.contains(Flags::Words) { f.words = contents.split_whitespace().count(); } if flags.contains(Flags::Chars) { f.chars = contents.chars().count(); } if flags.contains(Flags::Bytes) { f.bytes = contents.len(); } if flags.contains(Flags::Max) { f.max = 0; contents.lines().for_each(|line| { let max = line.chars().count(); f.max = cmp::max(max, f.max); }); } *totals += f; f.print_values(flags) } #[derive(Clone, Copy, Default)] struct Values<'a> { name: &'a str, lines: usize, words: usize, chars: usize, bytes: usize, max: usize, } impl AddAssign for Values<'_> { fn add_assign(&mut self, rhs: Self) { self.lines += rhs.lines; self.words += rhs.words; self.chars += rhs.chars; self.bytes += rhs.bytes; self.max = cmp::max(self.max, rhs.max); } } impl Values<'_> { fn print_values(&self, flags: u32) -> Result<(), Box> { let mut line = String::new(); if flags.contains(Flags::Lines) { write!(line, "\t{}", self.lines)?; } if flags.contains(Flags::Words) { write!(line, "\t{}", self.words)?; } if flags.contains(Flags::Chars) { write!(line, "\t{}", self.chars)?; } if flags.contains(Flags::Bytes) { write!(line, "\t{}", self.bytes)?; } if flags.contains(Flags::Max) { write!(line, "\t{}", self.max)?; } if self.name != "-" { write!(line, "\t{}", self.name).unwrap(); } println!("{}", line); Ok(()) } } #[derive(Debug)] pub struct ParseFlagsError; impl fmt::Display for ParseFlagsError { fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result { write!(f, "{self:?}") } } impl Error for ParseFlagsError {} #[derive(Clone, Copy)] enum Flags { Lines = 0b1, Words = 0b10, Chars = 0b100, Bytes = 0b1000, Max = 0b10000, } impl FromStr for Flags { type Err = ParseFlagsError; fn from_str(s: &str) -> Result { match s { "LINES" => Ok(Self::Lines), "WORDS" => Ok(Self::Words), "CHARS" => Ok(Self::Chars), "BYTES" => Ok(Self::Bytes), "MAX" => Ok(Self::Max), _ => Err(ParseFlagsError), } } } impl BitAnd for Flags { type Output = u32; fn bitand(self, rhs: u32) -> Self::Output { self as u32 & rhs } } impl BitAnd for u32 { type Output = u32; fn bitand(self, rhs: Flags) -> Self::Output { self & rhs as u32 } } impl BitAndAssign for u32 { fn bitand_assign(&mut self, rhs: Flags) { *self = *self & rhs; } } impl BitOr for Flags { type Output = u32; fn bitor(self, rhs: Self) -> Self::Output { self as u32 | rhs as u32 } } impl BitOr for u32 { type Output = u32; fn bitor(self, rhs: Flags) -> Self::Output { self | rhs as u32 } } impl BitOrAssign for u32 { fn bitor_assign(&mut self, rhs: Flags) { *self = *self | rhs; } }