// Copyright 2012-2013 The Rust Project Developers. See the COPYRIGHT // file at the top-level directory of this distribution and at // http://rust-lang.org/COPYRIGHT. // // Licensed under the Apache License, Version 2.0 or the MIT license // , at your // option. This file may not be copied, modified, or distributed // except according to those terms. #[link(name = "rustc", vers = "0.9-pre", uuid = "0ce89b41-2f92-459e-bbc1-8f5fe32f16cf", url = "https://github.com/mozilla/rust/tree/master/src/rustc")]; #[comment = "The Rust compiler"]; #[license = "MIT/ASL2"]; #[crate_type = "lib"]; #[feature(macro_rules, globs, struct_variant)]; // Rustc tasks always run on a fixed_stack_segment, so code in this // module can call C functions (in particular, LLVM functions) with // impunity. #[allow(cstack)]; extern mod extra; extern mod syntax; use driver::driver::{host_triple, optgroups, early_error}; use driver::driver::{str_input, file_input, build_session_options}; use driver::driver::{build_session, build_configuration, parse_pretty}; use driver::driver::{PpMode, pretty_print_input, list_metadata}; use driver::driver::{compile_input}; use driver::session; use middle::lint; use std::comm; use std::io; use std::num; use std::os; use std::result; use std::str; use std::task; use std::vec; use extra::getopts::groups; use extra::getopts; use syntax::codemap; use syntax::diagnostic::Emitter; use syntax::diagnostic; pub mod middle { pub mod trans; pub mod ty; pub mod subst; pub mod resolve; pub mod typeck; pub mod check_loop; pub mod check_match; pub mod check_const; pub mod lint; pub mod borrowck; pub mod dataflow; pub mod mem_categorization; pub mod liveness; pub mod kind; pub mod freevars; pub mod pat_util; pub mod region; pub mod const_eval; pub mod astencode; pub mod lang_items; pub mod privacy; pub mod moves; pub mod entry; pub mod effect; pub mod reachable; pub mod graph; pub mod cfg; pub mod stack_check; } pub mod front { pub mod config; pub mod test; pub mod std_inject; pub mod assign_node_ids; pub mod feature_gate; } pub mod back { pub mod link; pub mod abi; pub mod upcall; pub mod arm; pub mod mips; pub mod x86; pub mod x86_64; pub mod rpath; pub mod target_strs; } pub mod metadata; pub mod driver; pub mod util { pub mod common; pub mod ppaux; } pub mod lib { pub mod llvm; } // A curious inner module that allows ::std::foo to be available in here for // macros. /* mod std { pub use std::clone; pub use std::cmp; pub use std::os; pub use std::str; pub use std::sys; pub use std::to_bytes; pub use std::unstable; pub use extra::serialize; } */ pub fn version(argv0: &str) { let vers = match option_env!("CFG_VERSION") { Some(vers) => vers, None => "unknown version" }; println!("{} {}", argv0, vers); println!("host: {}", host_triple()); } pub fn usage(argv0: &str) { let message = format!("Usage: {} [OPTIONS] INPUT", argv0); println!("{}\n\ Additional help: -W help Print 'lint' options and default settings -Z help Print internal options for debugging rustc\n", groups::usage(message, optgroups())); } pub fn describe_warnings() { use extra::sort::Sort; println(" Available lint options: -W Warn about -A Allow -D Deny -F Forbid (deny, and deny all overrides) "); let lint_dict = lint::get_lint_dict(); let mut lint_dict = lint_dict.move_iter() .map(|(k, v)| (v, k)) .collect::<~[(lint::LintSpec, &'static str)]>(); lint_dict.qsort(); let mut max_key = 0; for &(_, name) in lint_dict.iter() { max_key = num::max(name.len(), max_key); } fn padded(max: uint, s: &str) -> ~str { str::from_utf8(vec::from_elem(max - s.len(), ' ' as u8)) + s } println("\nAvailable lint checks:\n"); println!(" {} {:7.7s} {}", padded(max_key, "name"), "default", "meaning"); println!(" {} {:7.7s} {}\n", padded(max_key, "----"), "-------", "-------"); for (spec, name) in lint_dict.move_iter() { let name = name.replace("_", "-"); println!(" {} {:7.7s} {}", padded(max_key, name), lint::level_to_str(spec.default), spec.desc); } io::println(""); } pub fn describe_debug_flags() { println("\nAvailable debug options:\n"); let r = session::debugging_opts_map(); for tuple in r.iter() { match *tuple { (ref name, ref desc, _) => { println!(" -Z {:>20s} -- {}", *name, *desc); } } } } pub fn run_compiler(args: &[~str], demitter: @diagnostic::Emitter) { let mut args = args.to_owned(); let binary = args.shift().to_managed(); if args.is_empty() { usage(binary); return; } let matches = &match getopts::groups::getopts(args, optgroups()) { Ok(m) => m, Err(f) => { early_error(demitter, f.to_err_msg()); } }; if matches.opt_present("h") || matches.opt_present("help") { usage(binary); return; } // Display the available lint options if "-W help" or only "-W" is given. let lint_flags = vec::append(matches.opt_strs("W"), matches.opt_strs("warn")); let show_lint_options = lint_flags.iter().any(|x| x == &~"help") || (matches.opt_present("W") && lint_flags.is_empty()); if show_lint_options { describe_warnings(); return; } let r = matches.opt_strs("Z"); if r.iter().any(|x| x == &~"help") { describe_debug_flags(); return; } if matches.opt_str("passes") == Some(~"list") { unsafe { lib::llvm::llvm::LLVMRustPrintPasses(); } return; } if matches.opt_present("v") || matches.opt_present("version") { version(binary); return; } let input = match matches.free.len() { 0u => early_error(demitter, "no input filename given"), 1u => { let ifile = matches.free[0].as_slice(); if "-" == ifile { let src = str::from_utf8(io::stdin().read_whole_stream()); str_input(src.to_managed()) } else { file_input(Path(ifile)) } } _ => early_error(demitter, "multiple input filenames provided") }; let sopts = build_session_options(binary, matches, demitter); let sess = build_session(sopts, demitter); let odir = matches.opt_str("out-dir").map(|o| Path(o)); let ofile = matches.opt_str("o").map(|o| Path(o)); let cfg = build_configuration(sess); let pretty = do matches.opt_default("pretty", "normal").map |a| { parse_pretty(sess, a) }; match pretty { Some::(ppm) => { pretty_print_input(sess, cfg, &input, ppm); return; } None:: => {/* continue */ } } let ls = matches.opt_present("ls"); if ls { match input { file_input(ref ifile) => { list_metadata(sess, &(*ifile), io::stdout()); } str_input(_) => { early_error(demitter, "can not list metadata for stdin"); } } return; } compile_input(sess, cfg, &input, &odir, &ofile); } #[deriving(Eq)] pub enum monitor_msg { fatal, done, } struct RustcEmitter { ch_capture: comm::SharedChan } impl diagnostic::Emitter for RustcEmitter { fn emit(&self, cmsp: Option<(@codemap::CodeMap, codemap::Span)>, msg: &str, lvl: diagnostic::level) { if lvl == diagnostic::fatal { self.ch_capture.send(fatal) } diagnostic::DefaultEmitter.emit(cmsp, msg, lvl) } } /* This is a sanity check that any failure of the compiler is performed through the diagnostic module and reported properly - we shouldn't be calling plain-old-fail on any execution path that might be taken. Since we have console logging off by default, hitting a plain fail statement would make the compiler silently exit, which would be terrible. This method wraps the compiler in a subtask and injects a function into the diagnostic emitter which records when we hit a fatal error. If the task fails without recording a fatal error then we've encountered a compiler bug and need to present an error. */ pub fn monitor(f: ~fn(@diagnostic::Emitter)) { use std::comm::*; // XXX: This is a hack for newsched since it doesn't support split stacks. // rustc needs a lot of stack! static STACK_SIZE: uint = 6000000; let (p, ch) = stream(); let ch = SharedChan::new(ch); let ch_capture = ch.clone(); let mut task_builder = task::task(); task_builder.supervised(); // XXX: Hacks on hacks. If the env is trying to override the stack size // then *don't* set it explicitly. if os::getenv("RUST_MIN_STACK").is_none() { task_builder.opts.stack_size = Some(STACK_SIZE); } match do task_builder.try { let ch = ch_capture.clone(); // The 'diagnostics emitter'. Every error, warning, etc. should // go through this function. let demitter = @RustcEmitter { ch_capture: ch.clone(), } as @diagnostic::Emitter; struct finally { ch: SharedChan, } impl Drop for finally { fn drop(&mut self) { self.ch.send(done); } } let _finally = finally { ch: ch }; f(demitter); // Due reasons explain in #7732, if there was a jit execution context it // must be consumed and passed along to our parent task. back::link::jit::consume_engine() } { result::Ok(_) => { /* fallthrough */ } result::Err(_) => { // Task failed without emitting a fatal diagnostic if p.recv() == done { diagnostic::DefaultEmitter.emit( None, diagnostic::ice_msg("unexpected failure"), diagnostic::error); let xs = [ ~"the compiler hit an unexpected failure path. \ this is a bug", ~"try running with RUST_LOG=rustc=1 \ to get further details and report the results \ to github.com/mozilla/rust/issues" ]; for note in xs.iter() { diagnostic::DefaultEmitter.emit(None, *note, diagnostic::note) } } // Fail so the process returns a failure code fail2!(); } } } pub fn main() { std::os::set_exit_status(main_args(std::os::args())); } pub fn main_args(args: &[~str]) -> int { let owned_args = args.to_owned(); do monitor |demitter| { run_compiler(owned_args, demitter); } return 0; }