extern crate liner; extern crate regex; extern crate termion; use std::env::{args, current_dir}; use std::io; use liner::{Completer, Context, CursorPosition, Event, EventKind, FilenameCompleter, Prompt}; use regex::Regex; use termion::color; // This prints out the text back onto the screen fn highlight_dodo(s: &str) -> String { let reg_exp = Regex::new("(?Pdodo)").unwrap(); let format = format!("{}$k{}", color::Fg(color::Red), color::Fg(color::Reset)); reg_exp.replace_all(s, format.as_str()).to_string() } struct CommentCompleter { inner: Option, } impl Completer for CommentCompleter { fn completions(&mut self, start: &str) -> Vec { if let Some(inner) = &mut self.inner { inner.completions(start) } else { Vec::new() } } fn on_event(&mut self, event: Event) { if let EventKind::BeforeComplete = event.kind { let (_, pos) = event.editor.get_words_and_cursor_position(); // Figure out of we are completing a command (the first word) or a filename. let filename = match pos { // If we are inside of a word(i is the index inside of the text, and if that // position is over zero, we return true CursorPosition::InWord(i) => i > 0, // If we are in a space like this `cat | cart` or cat | // checks if there is a word to our left(indicated by there being Some value) CursorPosition::InSpace(Some(_), _) => true, // Checks if there is no word to our left(indicated by there being None value) CursorPosition::InSpace(None, _) => false, // If we are on the left edge of a word, and the position of the cursor is // greater than or equal to 1, return true CursorPosition::OnWordLeftEdge(i) => i >= 1, // If we are on the right edge of the word CursorPosition::OnWordRightEdge(i) => i >= 1, }; // If we are not in a word with pos over zero, or in a space with text beforehand, // or on the left edge of a word with pos >= to 1, or on the Right edge of a word // under the same condition, then // This condition is only false under the predicate that we are in a space with no // word to the left self.inner = if filename { let completer = FilenameCompleter::new(Some(current_dir().unwrap())); Some(completer) } else { // Delete the completer None } } } } fn main() { let mut con = Context::new(); let mut completer = CommentCompleter { inner: None }; let history_file = match args().nth(1) { Some(file_name) => { println!("History file: {}", file_name); file_name } None => { eprintln!("No history file provided. Ending example early."); return; } }; con.history .set_file_name_and_load_history(history_file) .unwrap(); loop { // Reads the line, the first arg is the prompt, the second arg is a function called on every bit of text leaving liner, and the third is called on every key press // Basically highlight_dodo(read_line()), where on every keypress, the lambda is called let res = con.read_line( Prompt::from("[prompt]\n% "), Some(Box::new(highlight_dodo)), &mut completer, ); // We are out of the lambda, and res is the result from read_line which is an Into match res { Ok(res) => { match res.as_str() { "emacs" => { con.key_bindings = liner::KeyBindings::Emacs; println!("emacs mode"); } "vi" => { con.key_bindings = liner::KeyBindings::Vi; println!("vi mode"); } "exit" | "" => { println!("exiting..."); break; } // If all else fails, do nothing _ => {} } // If we typed nothing, don't continue down to pushing to history if res.is_empty() { break; } con.history.push(res.into()).unwrap(); } // If there was an error, get what type it was(remember, we still are in the match{} // from waaay above) Err(e) => { match e.kind() { // ctrl-c pressed io::ErrorKind::Interrupted => {} // ctrl-d pressed io::ErrorKind::UnexpectedEof => { println!("exiting..."); break; } _ => { // Ensure that all writes to the history file // are written before exiting due to error. panic!("error: {:?}", e) } } } } // End loop } // Ensure that all writes to the history file are written before exiting. con.history.commit_to_file(); }