// Copyright 2017 Mozilla // // Licensed under the Apache License, Version 2.0 (the "License"); you may not use // this file except in compliance with the License. You may obtain a copy of the // License at http://www.apache.org/licenses/LICENSE-2.0 // Unless required by applicable law or agreed to in writing, software distributed // under the License is distributed on an "AS IS" BASIS, WITHOUT WARRANTIES OR // CONDITIONS OF ANY KIND, either express or implied. See the License for the // specific language governing permissions and limitations under the License. use std::io::stdin; use linefeed::{ DefaultTerminal, Reader, ReadResult, }; use self::InputResult::*; use command_parser::{ Command, command, }; use errors as cli; /// Starting prompt const DEFAULT_PROMPT: &'static str = "mentat=> "; /// Prompt when further input is being read // TODO: Should this actually reflect the current open brace? const MORE_PROMPT: &'static str = "mentat.> "; /// Possible results from reading input from `InputReader` #[derive(Clone, Debug)] pub enum InputResult { /// mentat command as input; (name, rest of line) MetaCommand(Command), /// An empty line Empty, /// Needs more input More, /// End of file reached Eof, } /// Reads input from `stdin` pub struct InputReader { buffer: String, reader: Option>, in_process_cmd: Option, } impl InputReader { /// Constructs a new `InputReader` reading from `stdin`. pub fn new() -> InputReader { let r = match Reader::new("mentat") { Ok(mut r) => { r.set_word_break_chars(" \t\n!\"#$%&'(){}*+,-./:;<=>?@[\\]^`"); Some(r) }, Err(_) => None, }; InputReader{ buffer: String::new(), reader: r, in_process_cmd: None, } } /// Returns whether the `InputReader` is reading from a TTY. pub fn is_tty(&self) -> bool { self.reader.is_some() } /// Reads a single command, item, or statement from `stdin`. /// Returns `More` if further input is required for a complete result. /// In this case, the input received so far is buffered internally. pub fn read_input(&mut self) -> Result { let prompt = if self.in_process_cmd.is_some() { MORE_PROMPT } else { DEFAULT_PROMPT }; let line = match self.read_line(prompt) { Some(s) => s, None => return Ok(Eof), }; if !self.buffer.is_empty() { self.buffer.push('\n'); } self.buffer.push_str(&line); if self.buffer.is_empty() { return Ok(Empty); } // if we have a command in process (i.e. an incomplete query or transaction), // then we already know which type of command it is and so we don't need to parse the // command again, only the content, which we do later. // Therefore, we add the newly read in line to the existing command args. // If there is no in process command, we parse the read in line as a new command. let cmd = match &self.in_process_cmd { &Some(Command::Query(ref args)) => { Ok(Command::Query(args.clone() + " " + &line)) }, &Some(Command::Transact(ref args)) => { Ok(Command::Transact(args.clone() + " " + &line)) }, _ => { command(&self.buffer) }, }; match cmd { Ok(cmd) => { match cmd { Command::Query(_) | Command::Transact(_) | Command::QueryExplain(_) if !cmd.is_complete() => { // A query or transact is complete if it contains a valid EDN. // if the command is not complete, ask for more from the REPL and remember // which type of command we've found here. self.in_process_cmd = Some(cmd); Ok(More) }, _ => { let entry = self.buffer.clone(); self.buffer.clear(); self.add_history(entry); self.in_process_cmd = None; Ok(InputResult::MetaCommand(cmd)) } } }, Err(e) => { let entry = self.buffer.clone(); self.buffer.clear(); self.add_history(entry); self.in_process_cmd = None; Err(e) }, } } fn read_line(&mut self, prompt: &str) -> Option { match self.reader { Some(ref mut r) => { r.set_prompt(prompt); r.read_line().ok().and_then(|line| match line { ReadResult::Input(s) => Some(s), _ => None }) }, None => self.read_stdin() } } fn read_stdin(&self) -> Option { let mut s = String::new(); match stdin().read_line(&mut s) { Ok(0) | Err(_) => None, Ok(_) => Some(s) } } fn add_history(&mut self, line: String) { if let Some(ref mut r) = self.reader { r.add_history(line); } } }