//! The Rust compiler. //! //! # Note //! //! This API is completely unstable and subject to change. #![doc(html_root_url = "https://doc.rust-lang.org/nightly/")] #![feature(box_syntax)] #![cfg_attr(unix, feature(libc))] #![feature(nll)] #![feature(set_stdio)] #![feature(no_debug)] #![feature(integer_atomics)] #![recursion_limit="256"] pub extern crate getopts; #[cfg(unix)] extern crate libc; #[macro_use] extern crate log; #[macro_use] extern crate lazy_static; pub extern crate rustc_plugin_impl as plugin; use pretty::{PpMode, UserIdentifiedItem}; //use rustc_resolve as resolve; use rustc_save_analysis as save; use rustc_save_analysis::DumpHandler; use rustc::session::{config, Session, DiagnosticOutput}; use rustc::session::config::{Input, PrintRequest, ErrorOutputType, OutputType}; use rustc::session::config::nightly_options; use rustc::session::{early_error, early_warn}; use rustc::lint::Lint; use rustc::lint; use rustc::middle::cstore::MetadataLoader; use rustc::hir::def_id::LOCAL_CRATE; use rustc::ty::TyCtxt; use rustc::util::common::{set_time_depth, time, print_time_passes_entry, ErrorReported}; use rustc_metadata::locator; use rustc_codegen_utils::codegen_backend::CodegenBackend; use rustc_interface::interface; use rustc_interface::util::get_codegen_sysroot; use rustc_data_structures::sync::SeqCst; use rustc_serialize::json::ToJson; use std::borrow::Cow; use std::cmp::max; use std::default::Default; use std::env; use std::ffi::OsString; use std::io::{self, Read, Write}; use std::mem; use std::panic::{self, catch_unwind}; use std::path::PathBuf; use std::process::{self, Command, Stdio}; use std::str; use std::time::Instant; use syntax::ast; use syntax::source_map::FileLoader; use syntax::feature_gate::{GatedCfg, UnstableFeatures}; use syntax::parse::{self, PResult}; use syntax::symbol::sym; use syntax_pos::{DUMMY_SP, FileName}; pub mod pretty; mod args; /// Exit status code used for successful compilation and help output. pub const EXIT_SUCCESS: i32 = 0; /// Exit status code used for compilation failures and invalid flags. pub const EXIT_FAILURE: i32 = 1; const BUG_REPORT_URL: &str = "https://github.com/rust-lang/rust/blob/master/CONTRIBUTING.\ md#bug-reports"; const ICE_REPORT_COMPILER_FLAGS: &[&str] = &["Z", "C", "crate-type"]; const ICE_REPORT_COMPILER_FLAGS_EXCLUDE: &[&str] = &["metadata", "extra-filename"]; const ICE_REPORT_COMPILER_FLAGS_STRIP_VALUE: &[&str] = &["incremental"]; pub fn source_name(input: &Input) -> FileName { match *input { Input::File(ref ifile) => ifile.clone().into(), Input::Str { ref name, .. } => name.clone(), } } pub fn abort_on_err(result: Result, sess: &Session) -> T { match result { Err(..) => { sess.abort_if_errors(); panic!("error reported but abort_if_errors didn't abort???"); } Ok(x) => x, } } pub trait Callbacks { /// Called before creating the compiler instance fn config(&mut self, _config: &mut interface::Config) {} /// Called after parsing. Return value instructs the compiler whether to /// continue the compilation afterwards (defaults to `Compilation::Continue`) fn after_parsing(&mut self, _compiler: &interface::Compiler) -> Compilation { Compilation::Continue } /// Called after expansion. Return value instructs the compiler whether to /// continue the compilation afterwards (defaults to `Compilation::Continue`) fn after_expansion(&mut self, _compiler: &interface::Compiler) -> Compilation { Compilation::Continue } /// Called after analysis. Return value instructs the compiler whether to /// continue the compilation afterwards (defaults to `Compilation::Continue`) fn after_analysis(&mut self, _compiler: &interface::Compiler) -> Compilation { Compilation::Continue } } pub struct DefaultCallbacks; impl Callbacks for DefaultCallbacks {} #[derive(Default)] pub struct TimePassesCallbacks { time_passes: bool, } impl Callbacks for TimePassesCallbacks { fn config(&mut self, config: &mut interface::Config) { // If a --prints=... option has been given, we don't print the "total" // time because it will mess up the --prints output. See #64339. self.time_passes = config.opts.prints.is_empty() && (config.opts.debugging_opts.time_passes || config.opts.debugging_opts.time); } } // Parse args and run the compiler. This is the primary entry point for rustc. // See comments on CompilerCalls below for details about the callbacks argument. // The FileLoader provides a way to load files from sources other than the file system. pub fn run_compiler( at_args: &[String], callbacks: &mut (dyn Callbacks + Send), file_loader: Option>, emitter: Option> ) -> interface::Result<()> { let mut args = Vec::new(); for arg in at_args { match args::arg_expand(arg.clone()) { Ok(arg) => args.extend(arg), Err(err) => early_error(ErrorOutputType::default(), &format!("Failed to load argument file: {}", err)), } } let diagnostic_output = emitter.map(|emitter| DiagnosticOutput::Raw(emitter)) .unwrap_or(DiagnosticOutput::Default); let matches = match handle_options(&args) { Some(matches) => matches, None => return Ok(()), }; let sopts = config::build_session_options(&matches); let cfg = interface::parse_cfgspecs(matches.opt_strs("cfg")); let mut dummy_config = |sopts, cfg, diagnostic_output| { let mut config = interface::Config { opts: sopts, crate_cfg: cfg, input: Input::File(PathBuf::new()), input_path: None, output_file: None, output_dir: None, file_loader: None, diagnostic_output, stderr: None, crate_name: None, lint_caps: Default::default(), register_lints: None, }; callbacks.config(&mut config); config }; if let Some(ref code) = matches.opt_str("explain") { handle_explain(code, sopts.error_format); return Ok(()); } let (odir, ofile) = make_output(&matches); let (input, input_file_path, input_err) = match make_input(&matches.free) { Some(v) => v, None => { match matches.free.len() { 0 => { let config = dummy_config(sopts, cfg, diagnostic_output); interface::run_compiler(config, |compiler| { let sopts = &compiler.session().opts; if sopts.describe_lints { let lint_store = rustc_lint::new_lint_store( sopts.debugging_opts.no_interleave_lints, compiler.session().unstable_options(), ); describe_lints( compiler.session(), &lint_store, false ); return; } let should_stop = RustcDefaultCalls::print_crate_info( &***compiler.codegen_backend(), compiler.session(), None, &odir, &ofile ); if should_stop == Compilation::Stop { return; } early_error(sopts.error_format, "no input filename given") }); return Ok(()); } 1 => panic!("make_input should have provided valid inputs"), _ => early_error(sopts.error_format, &format!( "multiple input filenames provided (first two filenames are `{}` and `{}`)", matches.free[0], matches.free[1], )), } } }; if let Some(err) = input_err { // Immediately stop compilation if there was an issue reading // the input (for example if the input stream is not UTF-8). interface::run_compiler(dummy_config(sopts, cfg, diagnostic_output), |compiler| { compiler.session().err(&err.to_string()); }); return Err(ErrorReported); } let mut config = interface::Config { opts: sopts, crate_cfg: cfg, input, input_path: input_file_path, output_file: ofile, output_dir: odir, file_loader, diagnostic_output, stderr: None, crate_name: None, lint_caps: Default::default(), register_lints: None, }; callbacks.config(&mut config); interface::run_compiler(config, |compiler| { let sess = compiler.session(); let should_stop = RustcDefaultCalls::print_crate_info( &***compiler.codegen_backend(), sess, Some(compiler.input()), compiler.output_dir(), compiler.output_file(), ).and_then(|| RustcDefaultCalls::list_metadata( sess, &*compiler.codegen_backend().metadata_loader(), &matches, compiler.input() )); if should_stop == Compilation::Stop { return sess.compile_status(); } let pretty_info = parse_pretty(sess, &matches); compiler.parse()?; if let Some((ppm, opt_uii)) = pretty_info { if ppm.needs_ast_map(&opt_uii) { pretty::visit_crate(sess, &mut compiler.parse()?.peek_mut(), ppm); compiler.global_ctxt()?.peek_mut().enter(|tcx| { let expanded_crate = compiler.expansion()?.take().0; pretty::print_after_hir_lowering( tcx, compiler.input(), &expanded_crate, ppm, opt_uii.clone(), compiler.output_file().as_ref().map(|p| &**p), ); Ok(()) })?; } else { let mut krate = compiler.parse()?.take(); pretty::visit_crate(sess, &mut krate, ppm); pretty::print_after_parsing( sess, &compiler.input(), &krate, ppm, compiler.output_file().as_ref().map(|p| &**p), ); } return sess.compile_status(); } if callbacks.after_parsing(compiler) == Compilation::Stop { return sess.compile_status(); } if sess.opts.debugging_opts.parse_only || sess.opts.debugging_opts.show_span.is_some() || sess.opts.debugging_opts.ast_json_noexpand { return sess.compile_status(); } { let (_, _, lint_store) = &*compiler.register_plugins()?.peek(); // Lint plugins are registered; now we can process command line flags. if sess.opts.describe_lints { describe_lints(&sess, &lint_store, true); return sess.compile_status(); } } compiler.expansion()?; if callbacks.after_expansion(compiler) == Compilation::Stop { return sess.compile_status(); } compiler.prepare_outputs()?; if sess.opts.output_types.contains_key(&OutputType::DepInfo) && sess.opts.output_types.len() == 1 { return sess.compile_status(); } compiler.global_ctxt()?; if sess.opts.debugging_opts.no_analysis || sess.opts.debugging_opts.ast_json { return sess.compile_status(); } if sess.opts.debugging_opts.save_analysis { let expanded_crate = &compiler.expansion()?.peek().0; let crate_name = compiler.crate_name()?.peek().clone(); compiler.global_ctxt()?.peek_mut().enter(|tcx| { let result = tcx.analysis(LOCAL_CRATE); time(sess, "save analysis", || { save::process_crate( tcx, &expanded_crate, &crate_name, &compiler.input(), None, DumpHandler::new(compiler.output_dir().as_ref().map(|p| &**p), &crate_name) ) }); result // AST will be dropped *after* the `after_analysis` callback // (needed by the RLS) })?; } else { // Drop AST after creating GlobalCtxt to free memory mem::drop(compiler.expansion()?.take()); } compiler.global_ctxt()?.peek_mut().enter(|tcx| tcx.analysis(LOCAL_CRATE))?; if callbacks.after_analysis(compiler) == Compilation::Stop { return sess.compile_status(); } if sess.opts.debugging_opts.save_analysis { mem::drop(compiler.expansion()?.take()); } compiler.ongoing_codegen()?; // Drop GlobalCtxt after starting codegen to free memory mem::drop(compiler.global_ctxt()?.take()); if sess.opts.debugging_opts.print_type_sizes { sess.code_stats.borrow().print_type_sizes(); } compiler.link()?; if sess.opts.debugging_opts.perf_stats { sess.print_perf_stats(); } if sess.print_fuel_crate.is_some() { eprintln!("Fuel used by {}: {}", sess.print_fuel_crate.as_ref().unwrap(), sess.print_fuel.load(SeqCst)); } Ok(()) }) } #[cfg(unix)] pub fn set_sigpipe_handler() { unsafe { // Set the SIGPIPE signal handler, so that an EPIPE // will cause rustc to terminate, as expected. assert_ne!(libc::signal(libc::SIGPIPE, libc::SIG_DFL), libc::SIG_ERR); } } #[cfg(windows)] pub fn set_sigpipe_handler() {} // Extract output directory and file from matches. fn make_output(matches: &getopts::Matches) -> (Option, Option) { let odir = matches.opt_str("out-dir").map(|o| PathBuf::from(&o)); let ofile = matches.opt_str("o").map(|o| PathBuf::from(&o)); (odir, ofile) } // Extract input (string or file and optional path) from matches. fn make_input(free_matches: &[String]) -> Option<(Input, Option, Option)> { if free_matches.len() == 1 { let ifile = &free_matches[0]; if ifile == "-" { let mut src = String::new(); let err = if io::stdin().read_to_string(&mut src).is_err() { Some(io::Error::new(io::ErrorKind::InvalidData, "couldn't read from stdin, as it did not contain valid UTF-8")) } else { None }; if let Ok(path) = env::var("UNSTABLE_RUSTDOC_TEST_PATH") { let line = env::var("UNSTABLE_RUSTDOC_TEST_LINE"). expect("when UNSTABLE_RUSTDOC_TEST_PATH is set \ UNSTABLE_RUSTDOC_TEST_LINE also needs to be set"); let line = isize::from_str_radix(&line, 10). expect("UNSTABLE_RUSTDOC_TEST_LINE needs to be an number"); let file_name = FileName::doc_test_source_code(PathBuf::from(path), line); return Some((Input::Str { name: file_name, input: src }, None, err)); } Some((Input::Str { name: FileName::anon_source_code(&src), input: src }, None, err)) } else { Some((Input::File(PathBuf::from(ifile)), Some(PathBuf::from(ifile)), None)) } } else { None } } fn parse_pretty(sess: &Session, matches: &getopts::Matches) -> Option<(PpMode, Option)> { let pretty = if sess.opts.debugging_opts.unstable_options { matches.opt_default("pretty", "normal").map(|a| { // stable pretty-print variants only pretty::parse_pretty(sess, &a, false) }) } else { None }; if pretty.is_none() { sess.opts.debugging_opts.unpretty.as_ref().map(|a| { // extended with unstable pretty-print variants pretty::parse_pretty(sess, &a, true) }) } else { pretty } } // Whether to stop or continue compilation. #[derive(Copy, Clone, Debug, Eq, PartialEq)] pub enum Compilation { Stop, Continue, } impl Compilation { pub fn and_then Compilation>(self, next: F) -> Compilation { match self { Compilation::Stop => Compilation::Stop, Compilation::Continue => next(), } } } /// CompilerCalls instance for a regular rustc build. #[derive(Copy, Clone)] pub struct RustcDefaultCalls; // FIXME remove these and use winapi 0.3 instead // Duplicates: bootstrap/compile.rs, librustc_errors/emitter.rs #[cfg(unix)] fn stdout_isatty() -> bool { unsafe { libc::isatty(libc::STDOUT_FILENO) != 0 } } #[cfg(windows)] fn stdout_isatty() -> bool { type DWORD = u32; type BOOL = i32; type HANDLE = *mut u8; type LPDWORD = *mut u32; const STD_OUTPUT_HANDLE: DWORD = -11i32 as DWORD; extern "system" { fn GetStdHandle(which: DWORD) -> HANDLE; fn GetConsoleMode(hConsoleHandle: HANDLE, lpMode: LPDWORD) -> BOOL; } unsafe { let handle = GetStdHandle(STD_OUTPUT_HANDLE); let mut out = 0; GetConsoleMode(handle, &mut out) != 0 } } fn handle_explain(code: &str, output: ErrorOutputType) { let descriptions = rustc_interface::util::diagnostics_registry(); let normalised = if code.starts_with("E") { code.to_string() } else { format!("E{0:0>4}", code) }; match descriptions.find_description(&normalised) { Some(ref description) => { let mut is_in_code_block = false; let mut text = String::new(); // Slice off the leading newline and print. for line in description[1..].lines() { let indent_level = line.find(|c: char| !c.is_whitespace()) .unwrap_or_else(|| line.len()); let dedented_line = &line[indent_level..]; if dedented_line.starts_with("```") { is_in_code_block = !is_in_code_block; text.push_str(&line[..(indent_level+3)]); } else if is_in_code_block && dedented_line.starts_with("# ") { continue; } else { text.push_str(line); } text.push('\n'); } if stdout_isatty() { show_content_with_pager(&text); } else { print!("{}", text); } } None => { early_error(output, &format!("no extended information for {}", code)); } } } fn show_content_with_pager(content: &String) { let pager_name = env::var_os("PAGER").unwrap_or_else(|| if cfg!(windows) { OsString::from("more.com") } else { OsString::from("less") }); let mut fallback_to_println = false; match Command::new(pager_name).stdin(Stdio::piped()).spawn() { Ok(mut pager) => { if let Some(pipe) = pager.stdin.as_mut() { if pipe.write_all(content.as_bytes()).is_err() { fallback_to_println = true; } } if pager.wait().is_err() { fallback_to_println = true; } } Err(_) => { fallback_to_println = true; } } // If pager fails for whatever reason, we should still print the content // to standard output if fallback_to_println { print!("{}", content); } } impl RustcDefaultCalls { pub fn list_metadata(sess: &Session, metadata_loader: &dyn MetadataLoader, matches: &getopts::Matches, input: &Input) -> Compilation { let r = matches.opt_strs("Z"); if r.iter().any(|s| *s == "ls") { match input { &Input::File(ref ifile) => { let path = &(*ifile); let mut v = Vec::new(); locator::list_file_metadata(&sess.target.target, path, metadata_loader, &mut v) .unwrap(); println!("{}", String::from_utf8(v).unwrap()); } &Input::Str { .. } => { early_error(ErrorOutputType::default(), "cannot list metadata for stdin"); } } return Compilation::Stop; } Compilation::Continue } fn print_crate_info(codegen_backend: &dyn CodegenBackend, sess: &Session, input: Option<&Input>, odir: &Option, ofile: &Option) -> Compilation { use rustc::session::config::PrintRequest::*; // PrintRequest::NativeStaticLibs is special - printed during linking // (empty iterator returns true) if sess.opts.prints.iter().all(|&p| p == PrintRequest::NativeStaticLibs) { return Compilation::Continue; } let attrs = match input { None => None, Some(input) => { let result = parse_crate_attrs(sess, input); match result { Ok(attrs) => Some(attrs), Err(mut parse_error) => { parse_error.emit(); return Compilation::Stop; } } } }; for req in &sess.opts.prints { match *req { TargetList => { let mut targets = rustc_target::spec::get_targets().collect::>(); targets.sort(); println!("{}", targets.join("\n")); }, Sysroot => println!("{}", sess.sysroot.display()), TargetSpec => println!("{}", sess.target.target.to_json().pretty()), FileNames | CrateName => { let input = input.unwrap_or_else(|| early_error(ErrorOutputType::default(), "no input file provided")); let attrs = attrs.as_ref().unwrap(); let t_outputs = rustc_interface::util::build_output_filenames( input, odir, ofile, attrs, sess ); let id = rustc_codegen_utils::link::find_crate_name(Some(sess), attrs, input); if *req == PrintRequest::CrateName { println!("{}", id); continue; } let crate_types = rustc_interface::util::collect_crate_types(sess, attrs); for &style in &crate_types { let fname = rustc_codegen_utils::link::filename_for_input( sess, style, &id, &t_outputs ); println!("{}", fname.file_name().unwrap().to_string_lossy()); } } Cfg => { let allow_unstable_cfg = UnstableFeatures::from_environment() .is_nightly_build(); let mut cfgs = sess.parse_sess.config.iter().filter_map(|&(name, ref value)| { let gated_cfg = GatedCfg::gate(&ast::MetaItem { path: ast::Path::from_ident(ast::Ident::with_dummy_span(name)), kind: ast::MetaItemKind::Word, span: DUMMY_SP, }); // Note that crt-static is a specially recognized cfg // directive that's printed out here as part of // rust-lang/rust#37406, but in general the // `target_feature` cfg is gated under // rust-lang/rust#29717. For now this is just // specifically allowing the crt-static cfg and that's // it, this is intended to get into Cargo and then go // through to build scripts. let value = value.as_ref().map(|s| s.as_str()); let value = value.as_ref().map(|s| s.as_ref()); if name != sym::target_feature || value != Some("crt-static") { if !allow_unstable_cfg && gated_cfg.is_some() { return None } } if let Some(value) = value { Some(format!("{}=\"{}\"", name, value)) } else { Some(name.to_string()) } }).collect::>(); cfgs.sort(); for cfg in cfgs { println!("{}", cfg); } } RelocationModels | CodeModels | TlsModels | TargetCPUs | TargetFeatures => { codegen_backend.print(*req, sess); } // Any output here interferes with Cargo's parsing of other printed output PrintRequest::NativeStaticLibs => {} } } return Compilation::Stop; } } /// Returns a version string such as "0.12.0-dev". fn release_str() -> Option<&'static str> { option_env!("CFG_RELEASE") } /// Returns the full SHA1 hash of HEAD of the Git repo from which rustc was built. fn commit_hash_str() -> Option<&'static str> { option_env!("CFG_VER_HASH") } /// Returns the "commit date" of HEAD of the Git repo from which rustc was built as a static string. fn commit_date_str() -> Option<&'static str> { option_env!("CFG_VER_DATE") } /// Prints version information pub fn version(binary: &str, matches: &getopts::Matches) { let verbose = matches.opt_present("verbose"); println!("{} {}", binary, option_env!("CFG_VERSION").unwrap_or("unknown version")); if verbose { fn unw(x: Option<&str>) -> &str { x.unwrap_or("unknown") } println!("binary: {}", binary); println!("commit-hash: {}", unw(commit_hash_str())); println!("commit-date: {}", unw(commit_date_str())); println!("host: {}", config::host_triple()); println!("release: {}", unw(release_str())); get_codegen_sysroot("llvm")().print_version(); } } fn usage(verbose: bool, include_unstable_options: bool) { let groups = if verbose { config::rustc_optgroups() } else { config::rustc_short_optgroups() }; let mut options = getopts::Options::new(); for option in groups.iter().filter(|x| include_unstable_options || x.is_stable()) { (option.apply)(&mut options); } let message = "Usage: rustc [OPTIONS] INPUT"; let nightly_help = if nightly_options::is_nightly_build() { "\n -Z help Print unstable compiler options" } else { "" }; let verbose_help = if verbose { "" } else { "\n --help -v Print the full set of options rustc accepts" }; let at_path = if verbose && nightly_options::is_nightly_build() { " @path Read newline separated options from `path`\n" } else { "" }; println!("{options}{at_path}\nAdditional help: -C help Print codegen options -W help \ Print 'lint' options and default settings{nightly}{verbose}\n", options = options.usage(message), at_path = at_path, nightly = nightly_help, verbose = verbose_help); } fn print_wall_help() { println!(" The flag `-Wall` does not exist in `rustc`. Most useful lints are enabled by default. Use `rustc -W help` to see all available lints. It's more common to put warning settings in the crate root using `#![warn(LINT_NAME)]` instead of using the command line flag directly. "); } fn describe_lints(sess: &Session, lint_store: &lint::LintStore, loaded_plugins: bool) { println!(" Available lint options: -W Warn about -A \ Allow -D Deny -F Forbid \ (deny and all attempts to override) "); fn sort_lints(sess: &Session, mut lints: Vec<&'static Lint>) -> Vec<&'static Lint> { // The sort doesn't case-fold but it's doubtful we care. lints.sort_by_cached_key(|x: &&Lint| (x.default_level(sess), x.name)); lints } fn sort_lint_groups(lints: Vec<(&'static str, Vec, bool)>) -> Vec<(&'static str, Vec)> { let mut lints: Vec<_> = lints.into_iter().map(|(x, y, _)| (x, y)).collect(); lints.sort_by_key(|l| l.0); lints } let (plugin, builtin): (Vec<_>, _) = lint_store.get_lints() .iter() .cloned() .partition(|&lint| lint.is_plugin); let plugin = sort_lints(sess, plugin); let builtin = sort_lints(sess, builtin); let (plugin_groups, builtin_groups): (Vec<_>, _) = lint_store.get_lint_groups() .iter() .cloned() .partition(|&(.., p)| p); let plugin_groups = sort_lint_groups(plugin_groups); let builtin_groups = sort_lint_groups(builtin_groups); let max_name_len = plugin.iter() .chain(&builtin) .map(|&s| s.name.chars().count()) .max() .unwrap_or(0); let padded = |x: &str| { let mut s = " ".repeat(max_name_len - x.chars().count()); s.push_str(x); s }; println!("Lint checks provided by rustc:\n"); println!(" {} {:7.7} {}", padded("name"), "default", "meaning"); println!(" {} {:7.7} {}", padded("----"), "-------", "-------"); let print_lints = |lints: Vec<&Lint>| { for lint in lints { let name = lint.name_lower().replace("_", "-"); println!(" {} {:7.7} {}", padded(&name), lint.default_level.as_str(), lint.desc); } println!("\n"); }; print_lints(builtin); let max_name_len = max("warnings".len(), plugin_groups.iter() .chain(&builtin_groups) .map(|&(s, _)| s.chars().count()) .max() .unwrap_or(0)); let padded = |x: &str| { let mut s = " ".repeat(max_name_len - x.chars().count()); s.push_str(x); s }; println!("Lint groups provided by rustc:\n"); println!(" {} {}", padded("name"), "sub-lints"); println!(" {} {}", padded("----"), "---------"); println!(" {} {}", padded("warnings"), "all lints that are set to issue warnings"); let print_lint_groups = |lints: Vec<(&'static str, Vec)>| { for (name, to) in lints { let name = name.to_lowercase().replace("_", "-"); let desc = to.into_iter() .map(|x| x.to_string().replace("_", "-")) .collect::>() .join(", "); println!(" {} {}", padded(&name), desc); } println!("\n"); }; print_lint_groups(builtin_groups); match (loaded_plugins, plugin.len(), plugin_groups.len()) { (false, 0, _) | (false, _, 0) => { println!("Compiler plugins can provide additional lints and lint groups. To see a \ listing of these, re-run `rustc -W help` with a crate filename."); } (false, ..) => panic!("didn't load lint plugins but got them anyway!"), (true, 0, 0) => println!("This crate does not load any lint plugins or lint groups."), (true, l, g) => { if l > 0 { println!("Lint checks provided by plugins loaded by this crate:\n"); print_lints(plugin); } if g > 0 { println!("Lint groups provided by plugins loaded by this crate:\n"); print_lint_groups(plugin_groups); } } } } fn describe_debug_flags() { println!("\nAvailable options:\n"); print_flag_list("-Z", config::DB_OPTIONS); } fn describe_codegen_flags() { println!("\nAvailable codegen options:\n"); print_flag_list("-C", config::CG_OPTIONS); } fn print_flag_list(cmdline_opt: &str, flag_list: &[(&'static str, T, Option<&'static str>, &'static str)]) { let max_len = flag_list.iter() .map(|&(name, _, opt_type_desc, _)| { let extra_len = match opt_type_desc { Some(..) => 4, None => 0, }; name.chars().count() + extra_len }) .max() .unwrap_or(0); for &(name, _, opt_type_desc, desc) in flag_list { let (width, extra) = match opt_type_desc { Some(..) => (max_len - 4, "=val"), None => (max_len, ""), }; println!(" {} {:>width$}{} -- {}", cmdline_opt, name.replace("_", "-"), extra, desc, width = width); } } /// Process command line options. Emits messages as appropriate. If compilation /// should continue, returns a getopts::Matches object parsed from args, /// otherwise returns `None`. /// /// The compiler's handling of options is a little complicated as it ties into /// our stability story. The current intention of each compiler option is to /// have one of two modes: /// /// 1. An option is stable and can be used everywhere. /// 2. An option is unstable, and can only be used on nightly. /// /// Like unstable library and language features, however, unstable options have /// always required a form of "opt in" to indicate that you're using them. This /// provides the easy ability to scan a code base to check to see if anything /// unstable is being used. Currently, this "opt in" is the `-Z` "zed" flag. /// /// All options behind `-Z` are considered unstable by default. Other top-level /// options can also be considered unstable, and they were unlocked through the /// `-Z unstable-options` flag. Note that `-Z` remains to be the root of /// instability in both cases, though. /// /// So with all that in mind, the comments below have some more detail about the /// contortions done here to get things to work out correctly. pub fn handle_options(args: &[String]) -> Option { // Throw away the first argument, the name of the binary let args = &args[1..]; if args.is_empty() { // user did not write `-v` nor `-Z unstable-options`, so do not // include that extra information. usage(false, false); return None; } // Parse with *all* options defined in the compiler, we don't worry about // option stability here we just want to parse as much as possible. let mut options = getopts::Options::new(); for option in config::rustc_optgroups() { (option.apply)(&mut options); } let matches = options.parse(args).unwrap_or_else(|f| early_error(ErrorOutputType::default(), &f.to_string())); // For all options we just parsed, we check a few aspects: // // * If the option is stable, we're all good // * If the option wasn't passed, we're all good // * If `-Z unstable-options` wasn't passed (and we're not a -Z option // ourselves), then we require the `-Z unstable-options` flag to unlock // this option that was passed. // * If we're a nightly compiler, then unstable options are now unlocked, so // we're good to go. // * Otherwise, if we're an unstable option then we generate an error // (unstable option being used on stable) nightly_options::check_nightly_options(&matches, &config::rustc_optgroups()); // Late check to see if @file was used without unstable options enabled if crate::args::used_unstable_argsfile() && !nightly_options::is_unstable_enabled(&matches) { early_error(ErrorOutputType::default(), "@path is unstable - use -Z unstable-options to enable its use"); } if matches.opt_present("h") || matches.opt_present("help") { // Only show unstable options in --help if we accept unstable options. usage(matches.opt_present("verbose"), nightly_options::is_unstable_enabled(&matches)); return None; } // Handle the special case of -Wall. let wall = matches.opt_strs("W"); if wall.iter().any(|x| *x == "all") { print_wall_help(); return None; } // Don't handle -W help here, because we might first load plugins. let r = matches.opt_strs("Z"); if r.iter().any(|x| *x == "help") { describe_debug_flags(); return None; } let cg_flags = matches.opt_strs("C"); if cg_flags.iter().any(|x| *x == "help") { describe_codegen_flags(); return None; } if cg_flags.iter().any(|x| *x == "no-stack-check") { early_warn(ErrorOutputType::default(), "the --no-stack-check flag is deprecated and does nothing"); } if cg_flags.iter().any(|x| *x == "passes=list") { get_codegen_sysroot("llvm")().print_passes(); return None; } if matches.opt_present("version") { version("rustc", &matches); return None; } Some(matches) } fn parse_crate_attrs<'a>(sess: &'a Session, input: &Input) -> PResult<'a, Vec> { match *input { Input::File(ref ifile) => { parse::parse_crate_attrs_from_file(ifile, &sess.parse_sess) } Input::Str { ref name, ref input } => { parse::parse_crate_attrs_from_source_str(name.clone(), input.clone(), &sess.parse_sess) } } } /// Gets a list of extra command-line flags provided by the user, as strings. /// /// This function is used during ICEs to show more information useful for /// debugging, since some ICEs only happens with non-default compiler flags /// (and the users don't always report them). fn extra_compiler_flags() -> Option<(Vec, bool)> { let args = env::args_os().map(|arg| arg.to_string_lossy().to_string()).collect::>(); // Avoid printing help because of empty args. This can suggest the compiler // itself is not the program root (consider RLS). if args.len() < 2 { return None; } let matches = if let Some(matches) = handle_options(&args) { matches } else { return None; }; let mut result = Vec::new(); let mut excluded_cargo_defaults = false; for flag in ICE_REPORT_COMPILER_FLAGS { let prefix = if flag.len() == 1 { "-" } else { "--" }; for content in &matches.opt_strs(flag) { // Split always returns the first element let name = if let Some(first) = content.split('=').next() { first } else { &content }; let content = if ICE_REPORT_COMPILER_FLAGS_STRIP_VALUE.contains(&name) { name } else { content }; if !ICE_REPORT_COMPILER_FLAGS_EXCLUDE.contains(&name) { result.push(format!("{}{} {}", prefix, flag, content)); } else { excluded_cargo_defaults = true; } } } if !result.is_empty() { Some((result, excluded_cargo_defaults)) } else { None } } /// Runs a closure and catches unwinds triggered by fatal errors. /// /// The compiler currently unwinds with a special sentinel value to abort /// compilation on fatal errors. This function catches that sentinel and turns /// the panic into a `Result` instead. pub fn catch_fatal_errors R, R>(f: F) -> Result { catch_unwind(panic::AssertUnwindSafe(f)).map_err(|value| { if value.is::() { ErrorReported } else { panic::resume_unwind(value); } }) } lazy_static! { static ref DEFAULT_HOOK: Box) + Sync + Send + 'static> = { let hook = panic::take_hook(); panic::set_hook(Box::new(|info| report_ice(info, BUG_REPORT_URL))); hook }; } /// Prints the ICE message, including backtrace and query stack. /// /// The message will point the user at `bug_report_url` to report the ICE. /// /// When `install_ice_hook` is called, this function will be called as the panic /// hook. pub fn report_ice(info: &panic::PanicInfo<'_>, bug_report_url: &str) { // Invoke the default handler, which prints the actual panic message and optionally a backtrace (*DEFAULT_HOOK)(info); // Separate the output with an empty line eprintln!(); let emitter = Box::new(errors::emitter::EmitterWriter::stderr( errors::ColorConfig::Auto, None, false, false, None, false, )); let handler = errors::Handler::with_emitter(true, None, emitter); // a .span_bug or .bug call has already printed what // it wants to print. if !info.payload().is::() { let d = errors::Diagnostic::new(errors::Level::Bug, "unexpected panic"); handler.emit_diagnostic(&d); handler.abort_if_errors_and_should_abort(); } let mut xs: Vec> = vec![ "the compiler unexpectedly panicked. this is a bug.".into(), format!("we would appreciate a bug report: {}", bug_report_url).into(), format!("rustc {} running on {}", option_env!("CFG_VERSION").unwrap_or("unknown_version"), config::host_triple()).into(), ]; if let Some((flags, excluded_cargo_defaults)) = extra_compiler_flags() { xs.push(format!("compiler flags: {}", flags.join(" ")).into()); if excluded_cargo_defaults { xs.push("some of the compiler flags provided by cargo are hidden".into()); } } for note in &xs { handler.note_without_error(¬e); } // If backtraces are enabled, also print the query stack let backtrace = env::var_os("RUST_BACKTRACE").map(|x| &x != "0").unwrap_or(false); if backtrace { TyCtxt::try_print_query_stack(&handler); } #[cfg(windows)] unsafe { if env::var("RUSTC_BREAK_ON_ICE").is_ok() { extern "system" { fn DebugBreak(); } // Trigger a debugger if we crashed during bootstrap DebugBreak(); } } } /// Installs a panic hook that will print the ICE message on unexpected panics. /// /// A custom rustc driver can skip calling this to set up a custom ICE hook. pub fn install_ice_hook() { lazy_static::initialize(&DEFAULT_HOOK); } /// This allows tools to enable rust logging without having to magically match rustc's /// log crate version pub fn init_rustc_env_logger() { env_logger::init_from_env("RUSTC_LOG"); } pub fn main() { let start = Instant::now(); init_rustc_env_logger(); let mut callbacks = TimePassesCallbacks::default(); install_ice_hook(); let result = catch_fatal_errors(|| { let args = env::args_os().enumerate() .map(|(i, arg)| arg.into_string().unwrap_or_else(|arg| { early_error(ErrorOutputType::default(), &format!("Argument {} is not valid Unicode: {:?}", i, arg)) })) .collect::>(); run_compiler(&args, &mut callbacks, None, None) }).and_then(|result| result); let exit_code = match result { Ok(_) => EXIT_SUCCESS, Err(_) => EXIT_FAILURE, }; // The extra `\t` is necessary to align this label with the others. set_time_depth(0); print_time_passes_entry(callbacks.time_passes, "\ttotal", start.elapsed()); process::exit(exit_code); }