schala/schala-repl/src/repl/mod.rs
2019-03-14 21:25:37 -07:00

431 lines
14 KiB
Rust

use std::fmt::Write as FmtWrite;
use std::io::{Read, Write};
use std::fs::File;
use std::sync::Arc;
use colored::*;
use itertools::Itertools;
use crate::language::{ProgrammingLanguageInterface, EvalOptions, ComputationRequest, ComputationResponse};
mod command_tree;
use self::command_tree::CommandTree;
const HISTORY_SAVE_FILE: &'static str = ".schala_history";
const OPTIONS_SAVE_FILE: &'static str = ".schala_repl";
pub struct Repl {
interpreter_directive_sigil: char,
line_reader: ::linefeed::interface::Interface<::linefeed::terminal::DefaultTerminal>,
language_states: Vec<Box<ProgrammingLanguageInterface>>,
}
impl Repl {
pub fn new(initial_states: Vec<Box<ProgrammingLanguageInterface>>) -> Repl {
use linefeed::Interface;
let line_reader = Interface::new("schala-repl").unwrap();
let interpreter_directive_sigil = ':';
Repl {
interpreter_directive_sigil, line_reader, language_states: initial_states,
}
}
pub fn run_repl(&mut self) {
self.line_reader.load_history(HISTORY_SAVE_FILE).unwrap_or(());
println!("Schala MetaInterpreter version {}", crate::VERSION_STRING);
println!("Type {}help for help with the REPL", self.interpreter_directive_sigil);
self.handle_repl_loop();
self.save_before_exit();
println!("Exiting...");
}
fn handle_repl_loop(&mut self) {
use linefeed::ReadResult::*;
loop {
self.update_line_reader();
match self.line_reader.read_line() {
Err(e) => {
println!("readline IO Error: {}", e);
break;
},
Ok(Eof) | Ok(Signal(_)) => break,
Ok(Input(ref input)) => {
self.line_reader.add_history_unique(input.to_string());
let output = match input.chars().nth(0) {
Some(ch) if ch == self.interpreter_directive_sigil => self.handle_interpreter_directive(input),
_ => Some(self.handle_input(input)),
};
if let Some(o) = output {
println!("=> {}", o);
}
}
}
}
}
fn update_line_reader(&mut self) {
let tab_complete_handler = TabCompleteHandler::new(self.interpreter_directive_sigil, self.get_directives());
self.line_reader.set_completer(Arc::new(tab_complete_handler));
let prompt_str = format!(" >> ");
self.line_reader.set_prompt(&prompt_str).unwrap();
}
fn save_before_exit(&self) {
self.line_reader.save_history(HISTORY_SAVE_FILE).unwrap_or(());
/*
self.save_options() {
let ref options = self.options;
let read = File::create(OPTIONS_SAVE_FILE)
.and_then(|mut file| {
let buf = ::serde_json::to_string(options).unwrap();
file.write_all(buf.as_bytes())
});
if let Err(err) = read {
println!("Error saving {} file {}", OPTIONS_SAVE_FILE, err);
}
}
*/
}
fn handle_interpreter_directive(&mut self, input: &str) -> Option<String> {
let mut iter = input.chars();
iter.next();
let commands: Vec<&str> = iter
.as_str()
.split_whitespace()
.collect();
if commands.len() < 1 {
return None;
}
let directives = self.get_directives();
let mut dir_pointer: &CommandTree = &directives;
for command in commands.iter() {
match dir_pointer {
CommandTree::Top(subcommands) | CommandTree::NonTerminal { children: subcommands, .. } => {
let q = subcommands;
},
CommandTree::Terminal { name, .. } => {
}
}
}
Some(format!("you typed {:?}", commands))
}
fn get_cur_language_state(&mut self) -> &mut Box<ProgrammingLanguageInterface> {
//TODO this is obviously not complete
&mut self.language_states[0]
}
fn handle_input(&mut self, input: &str) -> String {
let ref mut language_state = self.get_cur_language_state();
let request = ComputationRequest {
source: input.to_string(),
debug_requests: vec![],
};
let ComputationResponse { main_output, global_output_stats, debug_responses }
= language_state.run_computation(request);
match main_output {
Ok(s) => s,
Err(e) => format!("{} {}", "Error".red(), e)
}
}
fn get_directives(&self) -> CommandTree {
let passes_directives = vec![];
/*
let ref passes = self.get_cur_language().get_passes();
let passes_directives: Vec<CommandTree> = passes.iter()
.map(|pass_descriptor| {
let name = &pass_descriptor.name;
if pass_descriptor.debug_options.len() == 0 {
CommandTree::term(name, None)
} else {
let children: Vec<CommandTree> = pass_descriptor.debug_options.iter()
.map(|o| CommandTree::term(o, None)).collect();
CommandTree::NonTerminal {
name: name.clone(),
children,
help_msg: None,
function: None,
}
}
}).collect();
*/
CommandTree::Top(vec![
CommandTree::term_with_function("exit", Some("exit the REPL"), Box::new(|repl: &mut Repl, cmds: Vec<String>| {
repl.save_before_exit();
::std::process::exit(0)
})),
CommandTree::term_with_function("quit", Some("exit the REPL"), Box::new(|repl: &mut Repl, cmds: Vec<String>| {
repl.save_before_exit();
::std::process::exit(0)
})),
CommandTree::term("help", Some("Print this help message")),
CommandTree::nonterm("debug",
Some("show or hide pass debug info for a given pass, or display the names of all passes, or turn timing on/off"),
vec![
CommandTree::term("passes", None),
CommandTree::nonterm("show", None, passes_directives.clone()),
CommandTree::nonterm("hide", None, passes_directives.clone()),
CommandTree::nonterm("timing", None, vec![
CommandTree::term("on", None),
CommandTree::term("off", None),
])
]
),
CommandTree::nonterm("lang",
Some("switch between languages, or go directly to a langauge by name"),
vec![
CommandTree::term("next", None),
CommandTree::term("prev", None),
CommandTree::nonterm("go", None, vec![]),
]
),
CommandTree::term("doc", Some("Get language-specific help for an item")),
])
}
}
/* --------------------------------------------- */
/*
fn get_options() -> EvalOptions {
File::open(OPTIONS_SAVE_FILE)
.and_then(|mut file| {
let mut contents = String::new();
file.read_to_string(&mut contents)?;
Ok(contents)
})
.and_then(|contents| {
let options: EvalOptions = ::serde_json::from_str(&contents)?;
Ok(options)
}).unwrap_or(EvalOptions::default())
}
fn save_options(&self) {
let ref options = self.options;
let read = File::create(OPTIONS_SAVE_FILE)
.and_then(|mut file| {
let buf = ::serde_json::to_string(options).unwrap();
file.write_all(buf.as_bytes())
});
if let Err(err) = read {
println!("Error saving {} file {}", OPTIONS_SAVE_FILE, err);
}
}
*/
/*
fn handle_interpreter_directive(&mut self, input: &str) -> Option<String> {
let mut iter = input.chars();
iter.next();
let commands: Vec<&str> = iter
.as_str()
.split_whitespace()
.collect();
let initial_cmd: &str = match commands.get(0).clone() {
None => return None,
Some(s) => s
};
match initial_cmd {
"exit" | "quit" => {
self.save_options();
::std::process::exit(0)
},
"lang" | "language" => match commands.get(1) {
Some(&"show") => {
let mut buf = String::new();
for (i, lang) in self.languages.iter().enumerate() {
write!(buf, "{}{}\n", if i == self.current_language_index { "* "} else { "" }, lang.get_language_name()).unwrap();
}
Some(buf)
},
Some(&"go") => match commands.get(2) {
None => Some(format!("Must specify a language name")),
Some(&desired_name) => {
for (i, _) in self.languages.iter().enumerate() {
let lang_name = self.languages[i].get_language_name();
if lang_name.to_lowercase() == desired_name.to_lowercase() {
self.current_language_index = i;
return Some(format!("Switching to {}", self.languages[self.current_language_index].get_language_name()));
}
}
Some(format!("Language {} not found", desired_name))
}
},
Some(&"next") | Some(&"n") => {
self.current_language_index = (self.current_language_index + 1) % self.languages.len();
Some(format!("Switching to {}", self.languages[self.current_language_index].get_language_name()))
},
Some(&"previous") | Some(&"p") | Some(&"prev") => {
self.current_language_index = if self.current_language_index == 0 { self.languages.len() - 1 } else { self.current_language_index - 1 };
Some(format!("Switching to {}", self.languages[self.current_language_index].get_language_name()))
},
Some(e) => Some(format!("Bad `lang(uage)` argument: {}", e)),
None => Some(format!("Valid arguments for `lang(uage)` are `show`, `next`|`n`, `previous`|`prev`|`n`"))
},
"help" => {
let mut buf = String::new();
let ref lang = self.languages[self.current_language_index];
let directives = match self.get_directives() {
CommandTree::Top(children) => children,
_ => panic!("Top-level CommandTree not Top")
};
writeln!(buf, "MetaInterpreter options").unwrap();
writeln!(buf, "-----------------------").unwrap();
for directive in directives {
let trailer = " ";
writeln!(buf, "{}{}- {}", directive.get_cmd(), trailer, directive.get_help()).unwrap();
}
writeln!(buf, "").unwrap();
writeln!(buf, "Language-specific help for {}", lang.get_language_name()).unwrap();
writeln!(buf, "-----------------------").unwrap();
writeln!(buf, "{}", lang.custom_interpreter_directives_help()).unwrap();
Some(buf)
},
"debug" => self.handle_debug(commands),
"doc" => self.languages[self.current_language_index]
.get_doc(&commands)
.or(Some(format!("No docs implemented"))),
e => {
self.languages[self.current_language_index]
.handle_custom_interpreter_directives(&commands)
.or(Some(format!("Unknown command: {}", e)))
}
}
}
*/
/*
fn handle_debug(&mut self, commands: Vec<&str>) -> Option<String> {
let passes = self.get_cur_language().get_passes();
match commands.get(1) {
Some(&"timing") => match commands.get(2) {
Some(&"on") => { self.options.debug_timing = true; None }
Some(&"off") => { self.options.debug_timing = false; None }
_ => return Some(format!(r#"Argument to "timing" must be "on" or "off""#)),
},
Some(&"passes") => Some(
passes.into_iter()
.map(|desc| {
if self.options.debug_passes.contains_key(&desc.name) {
let color = "green";
format!("*{}", desc.name.color(color))
} else {
desc.name
}
})
.intersperse(format!(" -> "))
.collect()),
b @ Some(&"show") | b @ Some(&"hide") => {
let show = b == Some(&"show");
let debug_pass: String = match commands.get(2) {
Some(s) => s.to_string(),
None => return Some(format!("Must specify a stage to debug")),
};
let pass_opt = commands.get(3);
if let Some(desc) = passes.iter().find(|desc| desc.name == debug_pass) {
let mut opts = vec![];
if let Some(opt) = pass_opt {
opts.push(opt.to_string());
}
let msg = format!("{} debug for pass {}", if show { "Enabling" } else { "Disabling" }, debug_pass);
if show {
self.options.debug_passes.insert(desc.name.clone(), PassDebugOptionsDescriptor { opts });
} else {
self.options.debug_passes.remove(&desc.name);
}
Some(msg)
} else {
Some(format!("Couldn't find stage: {}", debug_pass))
}
},
_ => Some(format!("Unknown debug command"))
}
}
*/
struct TabCompleteHandler {
sigil: char,
top_level_commands: CommandTree,
}
use linefeed::complete::{Completion, Completer};
use linefeed::terminal::Terminal;
impl TabCompleteHandler {
fn new(sigil: char, top_level_commands: CommandTree) -> TabCompleteHandler {
TabCompleteHandler {
top_level_commands,
sigil,
}
}
}
impl<T: Terminal> Completer<T> for TabCompleteHandler {
fn complete(&self, word: &str, prompter: &::linefeed::prompter::Prompter<T>, start: usize, _end: usize) -> Option<Vec<Completion>> {
let line = prompter.buffer();
if line.starts_with(&format!("{}", self.sigil)) {
let mut words = line[1..(if start == 0 { 1 } else { start })].split_whitespace();
let mut completions = Vec::new();
let mut command_tree: Option<&CommandTree> = Some(&self.top_level_commands);
loop {
match words.next() {
None => {
let top = match command_tree {
Some(CommandTree::Top(_)) => true,
_ => false
};
let word = if top { word.get(1..).unwrap() } else { word };
for cmd in command_tree.map(|x| x.get_children()).unwrap_or(vec![]).into_iter() {
if cmd.starts_with(word) {
completions.push(Completion {
completion: format!("{}{}", if top { ":" } else { "" }, cmd),
display: Some(cmd.to_string()),
suffix: ::linefeed::complete::Suffix::Some(' ')
})
}
}
break;
},
Some(s) => {
let new_ptr: Option<&CommandTree> = command_tree.and_then(|cm| match cm {
CommandTree::Top(children) => children.iter().find(|c| c.get_cmd() == s),
CommandTree::NonTerminal { children, .. } => children.iter().find(|c| c.get_cmd() == s),
CommandTree::Terminal { .. } => None,
});
command_tree = new_ptr;
}
}
}
Some(completions)
} else {
None
}
}
}