#![feature(advanced_slice_patterns, slice_patterns, box_patterns)] extern crate getopts; extern crate linefeed; use std::path::Path; use std::fs::File; use std::io::Read; use std::process; use std::io::Write; use std::default::Default; mod schala_lang; use schala_lang::SchalaEvaluator; use schala_lang::Schala; mod maaru_lang; mod language; use language::{ProgrammingLanguage, LanguageInterface, LLVMCodeString, EvaluationMachine}; mod llvm_wrap; fn main() { let option_matches = match program_options().parse(std::env::args()) { Ok(o) => o, Err(e) => { println!("{:?}", e); std::process::exit(1); } }; let trace = option_matches.opt_present("t"); let show_llvm = option_matches.opt_present("l"); match option_matches.free[..] { [] | [_] => { let mut repl = Repl::new(trace, show_llvm); repl.run(); } [_, ref filename, _..] => { let language = Schala::new(); run_noninteractive(filename, !option_matches.opt_present("i"), trace, &language); } }; } fn program_options() -> getopts::Options { let mut options = getopts::Options::new(); options.optflag("i", "interpret", "Interpret source file instead of compiling"); options.optflag("t", "trace-evaluation", "Print out trace of evaluation"); options.optflag("l", "llvm-in-repl", "Show LLVM IR in REPL"); options } fn run_noninteractive<'a, T: ProgrammingLanguage>(filename: &str, compile: bool, trace_evaluation: bool, language: &T) { let mut source_file = File::open(&Path::new(filename)).unwrap(); let mut buffer = String::new(); source_file.read_to_string(&mut buffer).unwrap(); let tokens = match T::tokenize(&buffer) { Ok(t) => t, Err(e) => { println!("Tokenization error: {}", e.msg); std::process::exit(1) } }; let ast = match T::parse(tokens) { Ok(ast) => ast, Err(err) => { println!("Parse error: {:?}", err.msg); /*println!("Remaining tokens: {:?}", err.remaining_tokens);*/ std::process::exit(1) } }; if compile { compilation_sequence(T::compile(ast), filename); } else { let mut evaluator = ::Evaluator::new(); if trace_evaluation { evaluator.set_option("trace_evaluation", true); } let results = T::evaluate(ast, &mut evaluator); for result in results.iter() { println!("{}", result); } } } type LineReader = linefeed::Reader; struct Repl { show_tokens: bool, show_parse: bool, show_llvm_ir: bool, languages: Vec>, interpreter_directive_sigil: char, reader: LineReader, } impl Repl { fn new(trace_evaluation: bool, show_llvm: bool) -> Repl { let mut reader: linefeed::Reader<_> = linefeed::Reader::new("Schala").unwrap(); reader.set_prompt(">> "); Repl { show_tokens: false, show_parse: false, show_llvm_ir: show_llvm, languages: vec![Box::new((Schala::new(), SchalaEvaluator::new(None)))], interpreter_directive_sigil: '.', reader: reader, } } fn run(&mut self) { use linefeed::ReadResult::*; println!("Schala v 0.02"); loop { match self.reader.read_line() { Err(e) => { println!("Terminal read error: {}", e); }, Ok(Eof) => { break; } Ok(Input(ref input)) => { self.reader.add_history(input.clone()); if self.handle_interpreter_directive(input) { continue; } let output = self.input_handler(input); println!("=> {}", output); } _ => (), } } println!("Exiting..."); } fn input_handler(&mut self, input: &str) -> String { let ref mut language = self.languages[0]; language.evaluate_in_repl(input, language::LanguageInterfaceOptions::default()) } fn handle_interpreter_directive(&mut self, input: &str) -> bool { match input.chars().nth(0) { Some(ch) if ch == self.interpreter_directive_sigil => (), _ => return false } let mut iter = input.chars(); iter.next(); let trimmed_sigil: &str = iter.as_str(); let commands: Vec<&str> = trimmed_sigil .split_whitespace() .collect(); let cmd: &str = match commands.get(0).clone() { None => return true, Some(s) => s }; match cmd { "exit" | "quit" => process::exit(0), "history" => { for item in self.reader.history() { println!("{}", item); } }, "set" => { let show = match commands[1] { "show" => true, "hide" => false, e => { println!("Bad `set` argument: {}", e); return true; } }; match commands[2] { "tokens" => self.show_tokens = show, "parse" => self.show_parse = show, "eval" => { /*self.evaluator.set_option("trace_evaluation", show);*/ }, "llvm" => self.show_llvm_ir = show, e => { println!("Bad `show`/`hide` argument: {}", e); return true; } } }, e => println!("Unknown command: {}", e) } return true; } } pub fn compilation_sequence(llvm_code: LLVMCodeString, sourcefile: &str) { use std::process::Command; let ll_filename = "out.ll"; let obj_filename = "out.o"; let q: Vec<&str> = sourcefile.split('.').collect(); let bin_filename = match &q[..] { &[name, "schala"] => name, _ => panic!("Bad filename {}", sourcefile), }; let LLVMCodeString(llvm_str) = llvm_code; println!("Compilation process finished for {}", ll_filename); File::create(ll_filename) .and_then(|mut f| f.write_all(llvm_str.as_bytes())) .expect("Error writing file"); let llc_output = Command::new("llc") .args(&["-filetype=obj", ll_filename, "-o", obj_filename]) .output() .expect("Failed to run llc"); if !llc_output.status.success() { println!("{}", String::from_utf8_lossy(&llc_output.stderr)); } let gcc_output = Command::new("gcc") .args(&["-o", bin_filename, &obj_filename]) .output() .expect("failed to run gcc"); if !gcc_output.status.success() { println!("{}", String::from_utf8_lossy(&gcc_output.stdout)); println!("{}", String::from_utf8_lossy(&gcc_output.stderr)); } for filename in [obj_filename].iter() { Command::new("rm") .arg(filename) .output() .expect(&format!("failed to run rm {}", filename)); } }