use std::collections::BTreeMap; use std::fmt::{Display, Formatter, Error}; use std::io::Write; use std::io::stderr; use std::io::stdin; use std::process::exit; use std::result::Result as RResult; use libimagcounter::counter::Counter; use libimagcounter::error::CounterError; use libimagrt::runtime::Runtime; use libimagutil::key_value_split::IntoKeyValue; use libimagerror::trace::trace_error; type Result = RResult; pub fn interactive(rt: &Runtime) { let scmd = rt.cli().subcommand_matches("interactive"); if scmd.is_none() { debug!("No subcommand"); exit(1); } let scmd = scmd.unwrap(); debug!("Found 'interactive' command"); let mut pairs : BTreeMap = BTreeMap::new(); for spec in scmd.values_of("spec").unwrap() { match compute_pair(rt, &spec) { Ok((k, v)) => { pairs.insert(k, v); }, Err(e) => { trace_error(&e); }, } } if !has_quit_binding(&pairs) { pairs.insert('q', Binding::Function(String::from("quit"), Box::new(quit))); } stderr().flush().ok(); loop { println!("---"); for (k, v) in &pairs { println!("\t[{}] => {}", k, v); } println!("---"); print!("counter > "); let mut input = String::new(); if let Err(e) = stdin().read_line(&mut input) { trace_error(&e); exit(1); } let cont = if !input.is_empty() { let increment = match input.chars().next() { Some('-') => false, _ => true }; input.chars().all(|chr| { match pairs.get_mut(&chr) { Some(&mut Binding::Counter(ref mut ctr)) => { if increment { debug!("Incrementing"); if let Err(e) = ctr.inc() { trace_error(&e); } } else { debug!("Decrementing"); if let Err(e) = ctr.dec() { trace_error(&e); } } true }, Some(&mut Binding::Function(ref name, ref f)) => { debug!("Calling {}", name); f() }, None => true, } }) } else { println!("No input..."); println!("\tUse a single character to increment the counter which is bound to it"); println!("\tUse 'q' (or the character bound to quit()) to exit"); println!("\tPrefix the line with '-' to decrement instead of increment the counters"); println!(""); true }; if !cont { break; } } } fn has_quit_binding(pairs: &BTreeMap) -> bool { pairs.iter() .any(|(_, bind)| { match *bind { Binding::Function(ref name, _) => name == "quit", _ => false, } }) } enum Binding<'a> { Counter(Counter<'a>), Function(String, Box bool>), } impl<'a> Display for Binding<'a> { fn fmt(&self, fmt: &mut Formatter) -> RResult<(), Error> { match *self { Binding::Counter(ref c) => { match c.name() { Ok(name) => { try!(write!(fmt, "{}", name)); Ok(()) }, Err(e) => { trace_error(&e); Ok(()) // TODO: Find a better way to escalate here. }, } }, Binding::Function(ref name, _) => write!(fmt, "{}()", name), } } } fn compute_pair<'a>(rt: &'a Runtime, spec: &str) -> Result<(char, Binding<'a>)> { let kv = String::from(spec).into_kv(); if kv.is_none() { debug!("Key-Value parsing failed!"); exit(1); } let kv = kv.unwrap(); let (k, v) = kv.into(); if !k.len() == 1 { // We have a key which is not only a single character! exit(1); } if v == "quit" { // TODO uncaught unwrap() Ok((k.chars().next().unwrap(), Binding::Function(String::from("quit"), Box::new(quit)))) } else { // TODO uncaught unwrap() Counter::load(v, rt.store()).and_then(|ctr| Ok((k.chars().next().unwrap(), Binding::Counter(ctr)))) } } fn quit() -> bool { false }