#![feature(phase)] extern crate regex; #[phase(plugin)] extern crate regex_macros; extern crate ansi_term; use std::os; use file::File; use dir::Dir; use column::{Column, Left}; use options::{Options, Lines, Grid}; use unix::Unix; use ansi_term::{Paint, Plain, strip_formatting}; pub mod column; pub mod dir; pub mod format; pub mod file; pub mod filetype; pub mod unix; pub mod options; pub mod sort; fn main() { let args = os::args(); match Options::getopts(args) { Err(err) => println!("Invalid options:\n{}", err), Ok(opts) => exa(&opts), }; } fn exa(opts: &Options) { let mut first = true; // It's only worth printing out directory names if the user supplied // more than one of them. let print_dir_names = opts.dirs.len() > 1; for dir_name in opts.dirs.clone().move_iter() { if first { first = false; } else { print!("\n"); } match Dir::readdir(Path::new(dir_name.clone())) { Ok(dir) => { if print_dir_names { println!("{}:", dir_name); } match opts.view { Lines(ref cols) => lines_view(opts, cols, dir), Grid => grid_view(opts, dir), } } Err(e) => { println!("{}: {}", dir_name, e); return; } }; } } fn grid_view(options: &Options, dir: Dir) { let unsorted_files = dir.files(); let files: Vec<&File> = options.transform_files(&unsorted_files); let max_column_length = files.iter().map(|f| f.name.len()).max().unwrap(); let console_width = 80; let num_columns = console_width / max_column_length; for y in range(0, files.len() / num_columns) { for x in range(0, num_columns) { let file = files.get(y * num_columns + x); let file_name = file.name.clone(); let styled_name = file.file_colour().paint(file_name.as_slice()); print!("{}", Left.pad_string(&styled_name, max_column_length - file_name.len() + 1)); } print!("\n"); } } fn lines_view(options: &Options, columns: &Vec, dir: Dir) { let unsorted_files = dir.files(); let files: Vec<&File> = options.transform_files(&unsorted_files); // The output gets formatted into columns, which looks nicer. To // do this, we have to write the results into a table, instead of // displaying each file immediately, then calculating the maximum // width of each column based on the length of the results and // padding the fields during output. let mut cache = Unix::empty_cache(); let mut table: Vec> = files.iter() .map(|f| columns.iter().map(|c| f.display(c, &mut cache)).collect()) .collect(); if options.header { table.unshift(columns.iter().map(|c| Plain.underline().paint(c.header())).collect()); } // Each column needs to have its invisible colour-formatting // characters stripped before it has its width calculated, or the // width will be incorrect and the columns won't line up properly. // This is fairly expensive to do (it uses a regex), so the // results are cached. let lengths: Vec> = table.iter() .map(|row| row.iter().map(|col| strip_formatting(col.clone()).len()).collect()) .collect(); let column_widths: Vec = range(0, columns.len()) .map(|n| lengths.iter().map(|row| *row.get(n)).max().unwrap()) .collect(); for (field_widths, row) in lengths.iter().zip(table.iter()) { for (num, column) in columns.iter().enumerate() { if num != 0 { print!(" "); } if num == columns.len() - 1 { print!("{}", row.get(num)); } else { let padding = *column_widths.get(num) - *field_widths.get(num); print!("{}", column.alignment().pad_string(row.get(num), padding)); } } print!("\n"); } }