schala/src/main.rs

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Rust
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#![feature(advanced_slice_patterns, slice_patterns, box_patterns)]
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extern crate getopts;
extern crate linefeed;
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#[macro_use]
extern crate lazy_static;
#[macro_use]
extern crate maplit;
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use std::path::Path;
use std::fs::File;
use std::io::Read;
use std::process;
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use std::io::Write;
use std::default::Default;
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mod schala_lang;
mod maaru_lang;
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mod robo_lang;
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mod language;
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use language::{ProgrammingLanguageInterface, EvalOptions, LLVMCodeString};
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mod llvm_wrap;
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mod virtual_machine;
use virtual_machine::{run_vm, run_assembler};
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fn main() {
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let languages: Vec<Box<ProgrammingLanguageInterface>> =
vec![
Box::new(schala_lang::Schala::new()),
Box::new(maaru_lang::Maaru::new()),
Box::new(robo_lang::Robo::new()),
];
let option_matches =
match program_options().parse(std::env::args()) {
Ok(o) => o,
Err(e) => {
println!("{:?}", e);
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std::process::exit(1);
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}
};
if option_matches.opt_present("list-languages") {
for lang in languages {
println!("{}", lang.get_language_name());
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}
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std::process::exit(1);
}
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if option_matches.opt_present("h") {
println!("{}", program_options().usage("Schala metainterpreter"));
std::process::exit(0);
}
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if option_matches.opt_present("m") {
let file_name = option_matches.free.get(1);
run_vm(file_name);
std::process::exit(0);
}
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if option_matches.opt_present("a") {
let file_name = option_matches.free.get(1);
run_assembler(file_name);
std::process::exit(0);
}
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let language_names: Vec<String> = languages.iter().map(|lang| {lang.get_language_name()}).collect();
let initial_index: usize =
option_matches.opt_str("l")
.and_then(|lang| { language_names.iter().position(|x| { *x == lang }) })
.unwrap_or(0);
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let mut options = EvalOptions::default();
options.trace_evaluation = option_matches.opt_present("t");
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let compile = !option_matches.opt_present("i");
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match option_matches.free[..] {
[] | [_] => {
let mut repl = Repl::new(languages, initial_index);
repl.options.show_llvm_ir = option_matches.opt_present("v");
repl.run();
}
[_, ref filename, _..] => {
let mut language = maaru_lang::Maaru::new();
run_noninteractive(filename, &mut language, options, compile);
}
};
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}
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fn run_noninteractive<T: ProgrammingLanguageInterface>(filename: &str, language: &mut T, options: EvalOptions, compile: bool) {
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let mut source_file = File::open(&Path::new(filename)).unwrap();
let mut buffer = String::new();
source_file.read_to_string(&mut buffer).unwrap();
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if compile {
if !language.can_compile() {
panic!("Trying to compile a non-compileable language");
} else {
let llvm_bytecode = language.compile(&buffer);
compilation_sequence(llvm_bytecode, filename);
}
} else {
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let interpretor_output = language.evaluate_in_repl(&buffer, &options);
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interpretor_output.print_to_screen();
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}
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}
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type LineReader = linefeed::Reader<linefeed::terminal::DefaultTerminal>;
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struct Repl {
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options: EvalOptions,
languages: Vec<Box<ProgrammingLanguageInterface>>,
current_language_index: usize,
interpreter_directive_sigil: char,
reader: LineReader,
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}
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impl Repl {
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fn new(languages: Vec<Box<ProgrammingLanguageInterface>>, initial_index: usize) -> Repl {
let mut reader: linefeed::Reader<_> = linefeed::Reader::new("Metainterpreter").unwrap();
reader.set_prompt(">> ");
let i = if initial_index < languages.len() { initial_index } else { 0 };
Repl {
options: EvalOptions::default(),
languages: languages,
current_language_index: i,
interpreter_directive_sigil: '.',
reader: reader,
}
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}
fn run(&mut self) {
use linefeed::ReadResult::*;
println!("MetaInterpreter v 0.05");
println!("Using language: {}", self.languages[self.current_language_index].get_language_name());
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);
}
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_ => (),
}
}
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println!("Exiting...");
}
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fn input_handler(&mut self, input: &str) -> String {
let ref mut language = self.languages[self.current_language_index];
let interpretor_output = language.evaluate_in_repl(input, &self.options);
interpretor_output.to_string()
}
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fn handle_interpreter_directive(&mut self, input: &str) -> bool {
match input.chars().nth(0) {
Some(ch) if ch == self.interpreter_directive_sigil => (),
_ => return false
}
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let mut iter = input.chars();
iter.next();
let trimmed_sigil: &str = iter.as_str();
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let commands: Vec<&str> = trimmed_sigil
.split_whitespace()
.collect();
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let cmd: &str = match commands.get(0).clone() {
None => return true,
Some(s) => s
};
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match cmd {
"exit" | "quit" => process::exit(0),
"history" => {
for item in self.reader.history() {
println!("{}", item);
}
},
"help" => {
println!("Commands:");
println!("exit | quit");
println!("lang [show|next|previous]");
println!("set [show|hide] [tokens|parse|eval|llvm]");
}
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"lang" => {
match commands.get(1) {
Some(&"show") => {
for (i, lang) in self.languages.iter().enumerate() {
if i == self.current_language_index {
println!("* {}", lang.get_language_name());
} else {
println!("{}", lang.get_language_name());
}
}
},
Some(&"next") => {
self.current_language_index = (self.current_language_index + 1) % self.languages.len();
println!("Switching to {}", self.languages[self.current_language_index].get_language_name());
}
Some(&"prev") | Some(&"previous") => {
self.current_language_index = if self.current_language_index == 0 { self.languages.len() - 1 } else { self.current_language_index - 1 };
println!("Switching to {}", self.languages[self.current_language_index].get_language_name());
},
Some(e) => println!("Bad `lang` argument: {}", e),
None => println!("`lang` - valid arguments `show`, `next`, `prev`|`previous`"),
}
},
"set" => {
let show = match commands.get(1) {
Some(&"show") => true,
Some(&"hide") => false,
Some(e) => {
println!("Bad `set` argument: {}", e);
return true;
}
None => {
println!("`set` - valid arguments `show {{option}}`, `hide {{option}}`");
return true;
}
};
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match commands.get(2) {
Some(&"tokens") => self.options.debug_tokens = show,
Some(&"parse") => self.options.debug_parse = show,
Some(&"eval") => {
//let ref mut language = self.languages[self.current_language_index];
//language.set_option("trace_evaluation", show);
},
Some(&"llvm") => self.options.show_llvm_ir = show,
Some(e) => {
println!("Bad `show`/`hide` argument: {}", e);
return true;
}
None => {
println!("`show`/`hide` requires an argument");
return true;
}
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}
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},
e => println!("Unknown command: {}", e)
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}
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return true;
}
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}
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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[..] {
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&[name, "maaru"] => name,
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_ => 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));
}
}
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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("v",
"llvm-in-repl",
"Show LLVM IR in REPL");
options.optflag("",
"list-languages",
"Show a list of all supported languages");
options.optopt("l",
"lang",
"Start up REPL in a language",
"LANGUAGE");
options.optflag("h",
"help",
"Show help text");
options.optflag("m",
"virtual-machine",
"Start up a virtual machine instead of an interpreter");
options.optflag("a",
"assembler",
"Assemble file into bytecode");
options
}