rust/src/librustc/rustc.rc
kyeongwoon 987f824f23 Support ARM and Android
Conflicts:
	src/libcore/os.rs
	src/librustc/back/link.rs
	src/librustc/driver/driver.rs
	src/librustc/metadata/loader.rs
	src/librustc/middle/trans/base.rs
2013-01-13 16:43:39 -08:00

447 lines
12 KiB
Rust

// -*- rust -*-
// Copyright 2012 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 <LICENSE-APACHE or
// http://www.apache.org/licenses/LICENSE-2.0> or the MIT license
// <LICENSE-MIT or http://opensource.org/licenses/MIT>, at your
// option. This file may not be copied, modified, or distributed
// except according to those terms.
#[link(name = "rustc",
vers = "0.6",
uuid = "0ce89b41-2f92-459e-bbc1-8f5fe32f16cf",
url = "https://github.com/mozilla/rust/tree/master/src/rustc")];
#[comment = "The Rust compiler"];
#[license = "MIT"];
#[crate_type = "lib"];
#[legacy_modes];
#[legacy_exports];
#[allow(non_implicitly_copyable_typarams)];
#[allow(non_camel_case_types)];
#[allow(deprecated_mode)];
#[warn(deprecated_pattern)];
#[no_core];
extern mod core(vers = "0.6");
use core::*;
extern mod std(vers = "0.6");
extern mod syntax(vers = "0.6");
/*
Alternate names for some modules.
I am using this to help extract metadata into its own crate. In metadata.rs
it redefines all these modules in order to gate access from metadata to the
rest of the compiler, then uses these to access the original implementation.
*/
use util_ = util;
use lib_ = lib;
use driver_ = driver;
use middle_ = middle;
use back_ = back;
mod middle {
#[legacy_exports];
mod trans {
#[legacy_exports];
#[legacy_exports]
mod inline;
#[legacy_exports]
mod monomorphize;
#[legacy_exports]
mod controlflow;
#[legacy_exports]
mod glue;
#[legacy_exports]
mod datum;
#[legacy_exports]
mod callee;
#[legacy_exports]
mod expr;
#[legacy_exports]
mod common;
#[legacy_exports]
mod consts;
#[legacy_exports]
mod type_of;
#[legacy_exports]
mod build;
#[legacy_exports]
mod base;
#[legacy_exports]
mod _match;
#[legacy_exports]
mod uniq;
#[legacy_exports]
mod closure;
#[legacy_exports]
mod tvec;
#[legacy_exports]
mod meth;
#[legacy_exports]
mod foreign;
#[legacy_exports]
mod reflect;
#[legacy_exports]
mod shape;
#[legacy_exports]
mod debuginfo;
#[legacy_exports]
mod type_use;
#[legacy_exports]
mod reachable;
mod machine;
}
#[legacy_exports]
mod ty;
#[legacy_exports]
mod resolve;
#[path = "typeck/mod.rs"]
pub mod typeck;
#[legacy_exports]
mod check_loop;
#[legacy_exports]
mod check_match;
#[legacy_exports]
mod check_const;
#[legacy_exports]
mod lint;
#[path = "borrowck/mod.rs"]
pub mod borrowck;
#[legacy_exports]
mod mem_categorization;
#[legacy_exports]
mod liveness;
#[legacy_exports]
mod kind;
#[legacy_exports]
mod freevars;
#[legacy_exports]
mod capture;
#[legacy_exports]
mod pat_util;
#[legacy_exports]
mod region;
#[legacy_exports]
mod const_eval;
#[legacy_exports]
mod astencode;
#[legacy_exports]
mod lang_items;
#[legacy_exports]
mod privacy;
mod mode;
}
mod front {
#[legacy_exports];
#[legacy_exports]
mod config;
#[legacy_exports]
mod test;
#[legacy_exports]
mod core_inject;
#[legacy_exports]
mod intrinsic_inject;
}
mod back {
#[legacy_exports];
#[legacy_exports]
mod link;
#[legacy_exports]
mod abi;
#[legacy_exports]
mod upcall;
#[legacy_exports]
mod arm;
#[legacy_exports]
mod x86;
#[legacy_exports]
mod x86_64;
#[legacy_exports]
mod rpath;
#[legacy_exports]
mod target_strs;
}
#[path = "metadata/mod.rs"]
mod metadata;
#[path = "driver/mod.rs"]
mod driver;
mod util {
#[legacy_exports];
#[legacy_exports]
mod common;
#[legacy_exports]
mod ppaux;
}
mod lib {
#[legacy_exports];
#[legacy_exports]
mod llvm;
}
use result::{Ok, Err};
use io::ReaderUtil;
use std::getopts;
use std::map::HashMap;
use getopts::{opt_present};
use getopts::groups;
use syntax::codemap;
use syntax::diagnostic;
use driver::driver::{host_triple, optgroups, early_error,
str_input, file_input, build_session_options,
build_session, build_configuration, parse_pretty,
pp_mode, pretty_print_input, list_metadata,
compile_input};
use driver::session;
use middle::lint;
fn version(argv0: &str) {
let mut vers = ~"unknown version";
let env_vers = env!("CFG_VERSION");
if env_vers.len() != 0 { vers = env_vers; }
io::println(fmt!("%s %s", argv0, vers));
io::println(fmt!("host: %s", host_triple()));
}
fn usage(argv0: &str) {
let message = fmt!("Usage: %s [OPTIONS] INPUT", argv0);
io::println(groups::usage(message, optgroups()) +
~"Additional help:
-W help Print 'lint' options and default settings
-Z help Print internal options for debugging rustc
");
}
fn describe_warnings() {
io::println(fmt!("
Available lint options:
-W <foo> Warn about <foo>
-A <foo> Allow <foo>
-D <foo> Deny <foo>
-F <foo> Forbid <foo> (deny, and deny all overrides)
"));
let lint_dict = lint::get_lint_dict();
let mut max_key = 0;
for lint_dict.each_key |k| { max_key = uint::max(k.len(), max_key); }
fn padded(max: uint, s: &str) -> ~str {
str::from_bytes(vec::from_elem(max - s.len(), ' ' as u8)) + s
}
io::println(fmt!("\nAvailable lint checks:\n"));
io::println(fmt!(" %s %7.7s %s",
padded(max_key, ~"name"), ~"default", ~"meaning"));
io::println(fmt!(" %s %7.7s %s\n",
padded(max_key, ~"----"), ~"-------", ~"-------"));
for lint_dict.each |k, v| {
let k = str::replace(k, ~"_", ~"-");
io::println(fmt!(" %s %7.7s %s",
padded(max_key, k),
match v.default {
lint::allow => ~"allow",
lint::warn => ~"warn",
lint::deny => ~"deny",
lint::forbid => ~"forbid"
},
v.desc));
}
io::println(~"");
}
fn describe_debug_flags() {
io::println(fmt!("\nAvailable debug options:\n"));
for session::debugging_opts_map().each |pair| {
let (name, desc, _) = /*bad*/copy *pair;
io::println(fmt!(" -Z %-20s -- %s", name, desc));
}
}
fn run_compiler(args: &~[~str], demitter: diagnostic::emitter) {
// Don't display log spew by default. Can override with RUST_LOG.
logging::console_off();
let mut args = /*bad*/copy *args;
let binary = args.shift();
if args.is_empty() { usage(binary); return; }
let matches =
&match getopts::groups::getopts(args, optgroups()) {
Ok(ref m) => (*m),
Err(ref f) => {
early_error(demitter, getopts::fail_str((*f)))
}
};
if opt_present(matches, ~"h") || opt_present(matches, ~"help") {
usage(binary);
return;
}
let lint_flags = vec::append(getopts::opt_strs(matches, ~"W"),
getopts::opt_strs(matches, ~"warn"));
if lint_flags.contains(&~"help") {
describe_warnings();
return;
}
if getopts::opt_strs(matches, ~"Z").contains(&~"help") {
describe_debug_flags();
return;
}
if opt_present(matches, ~"v") || opt_present(matches, ~"version") {
version(binary);
return;
}
let input = match vec::len(matches.free) {
0u => early_error(demitter, ~"no input filename given"),
1u => {
let ifile = /*bad*/copy matches.free[0];
if ifile == ~"-" {
let src = str::from_bytes(io::stdin().read_whole_stream());
str_input(src)
} else {
file_input(Path(ifile))
}
}
_ => early_error(demitter, ~"multiple input filenames provided")
};
// XXX: Bad copy.
let sopts = build_session_options(copy binary, matches, demitter);
let sess = build_session(sopts, demitter);
let odir = getopts::opt_maybe_str(matches, ~"out-dir");
let odir = odir.map(|o| Path(*o));
let ofile = getopts::opt_maybe_str(matches, ~"o");
let ofile = ofile.map(|o| Path(*o));
let cfg = build_configuration(sess, binary, input);
let pretty =
option::map(&getopts::opt_default(matches, ~"pretty",
~"normal"),
|a| parse_pretty(sess, *a) );
match pretty {
Some::<pp_mode>(ppm) => {
pretty_print_input(sess, cfg, input, ppm);
return;
}
None::<pp_mode> => {/* continue */ }
}
let ls = opt_present(matches, ~"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);
}
enum monitor_msg {
fatal,
done,
}
impl monitor_msg : cmp::Eq {
pure fn eq(&self, other: &monitor_msg) -> bool {
((*self) as uint) == ((*other) as uint)
}
pure fn ne(&self, other: &monitor_msg) -> bool { !(*self).eq(other) }
}
/*
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.
*/
fn monitor(+f: fn~(diagnostic::emitter)) {
let p = oldcomm::Port();
let ch = oldcomm::Chan(&p);
match do task::try |move f| {
// The 'diagnostics emitter'. Every error, warning, etc. should
// go through this function.
let demitter = fn@(cmsp: Option<(@codemap::CodeMap, codemap::span)>,
msg: &str, lvl: diagnostic::level) {
if lvl == diagnostic::fatal {
oldcomm::send(ch, fatal);
}
diagnostic::emit(cmsp, msg, lvl);
};
struct finally {
ch: oldcomm::Chan<monitor_msg>,
drop { oldcomm::send(self.ch, done); }
}
let _finally = finally { ch: ch };
f(demitter)
} {
result::Ok(_) => { /* fallthrough */ }
result::Err(_) => {
// Task failed without emitting a fatal diagnostic
if oldcomm::recv(p) == done {
diagnostic::emit(
None,
diagnostic::ice_msg(~"unexpected failure"),
diagnostic::error);
for [
~"the compiler hit an unexpected failure path. \
this is a bug",
~"try running with RUST_LOG=rustc=1,::rt::backtrace \
to get further details and report the results \
to github.com/mozilla/rust/issues"
].each |note| {
diagnostic::emit(None, *note, diagnostic::note)
}
}
// Fail so the process returns a failure code
fail;
}
}
}
fn main() {
let mut args = os::args();
do monitor |move args, demitter| {
run_compiler(&args, demitter);
}
}
// Local Variables:
// fill-column: 78;
// indent-tabs-mode: nil
// c-basic-offset: 4
// buffer-file-coding-system: utf-8-unix
// End: