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fuchsia / third_party / rust / 7de9402b77ded0d8ec9e1c554521b2121449ef2b / . / src / librustc_interface / passes.rs
blob: 2a4bc41f85072192bda1c0c202451dcbf9b83514 [file] [log] [blame]
use crate::interface::{Compiler, Result};
use crate::util;
use crate::proc_macro_decls;
use log::{info, warn, log_enabled};
use rustc::arena::Arena;
use rustc::dep_graph::DepGraph;
use rustc::hir;
use rustc::hir::lowering::lower_crate;
use rustc::hir::def_id::{CrateNum, LOCAL_CRATE};
use rustc::lint;
use rustc::middle::{self, reachable, resolve_lifetime, stability};
use rustc::middle::cstore::{CrateStore, MetadataLoader, MetadataLoaderDyn};
use rustc::ty::{self, AllArenas, ResolverOutputs, TyCtxt, GlobalCtxt};
use rustc::ty::steal::Steal;
use rustc::traits;
use rustc::util::common::{time, ErrorReported};
use rustc::session::Session;
use rustc::session::config::{self, CrateType, Input, OutputFilenames, OutputType};
use rustc::session::config::{PpMode, PpSourceMode};
use rustc::session::search_paths::PathKind;
use rustc_codegen_ssa::back::link::emit_metadata;
use rustc_codegen_utils::codegen_backend::CodegenBackend;
use rustc_codegen_utils::link::filename_for_metadata;
use rustc_data_structures::{box_region_allow_access, declare_box_region_type, parallel};
use rustc_data_structures::sync::{Lrc, Once, ParallelIterator, par_iter, WorkerLocal};
use rustc_errors::PResult;
use rustc_incremental;
use rustc_mir as mir;
use rustc_parse::{parse_crate_from_file, parse_crate_from_source_str};
use rustc_passes::{self, ast_validation, hir_stats, layout_test};
use rustc_plugin_impl as plugin;
use rustc_privacy;
use rustc_resolve::{Resolver, ResolverArenas};
use rustc_traits;
use rustc_typeck as typeck;
use syntax::{self, ast, visit};
use syntax::early_buffered_lints::BufferedEarlyLint;
use syntax_expand::base::ExtCtxt;
use syntax::mut_visit::MutVisitor;
use syntax::util::node_count::NodeCounter;
use syntax::symbol::Symbol;
use syntax_pos::FileName;
use syntax_ext;
use rustc_serialize::json;
use tempfile::Builder as TempFileBuilder;
use std::{env, fs, iter, mem};
use std::any::Any;
use std::ffi::OsString;
use std::io::{self, Write};
use std::path::PathBuf;
use std::cell::RefCell;
use std::rc::Rc;
pub fn parse<'a>(sess: &'a Session, input: &Input) -> PResult<'a, ast::Crate> {
sess.diagnostic()
.set_continue_after_error(sess.opts.debugging_opts.continue_parse_after_error);
let krate = time(sess, "parsing", || {
let _prof_timer = sess.prof.generic_activity("parse_crate");
match input {
Input::File(file) => parse_crate_from_file(file, &sess.parse_sess),
Input::Str { input, name } => {
parse_crate_from_source_str(name.clone(), input.clone(), &sess.parse_sess)
}
}
})?;
sess.diagnostic().set_continue_after_error(true);
if sess.opts.debugging_opts.ast_json_noexpand {
println!("{}", json::as_json(&krate));
}
if sess.opts.debugging_opts.input_stats {
println!(
"Lines of code: {}",
sess.source_map().count_lines()
);
println!("Pre-expansion node count: {}", count_nodes(&krate));
}
if let Some(ref s) = sess.opts.debugging_opts.show_span {
syntax::show_span::run(sess.diagnostic(), s, &krate);
}
if sess.opts.debugging_opts.hir_stats {
hir_stats::print_ast_stats(&krate, "PRE EXPANSION AST STATS");
}
Ok(krate)
}
fn count_nodes(krate: &ast::Crate) -> usize {
let mut counter = NodeCounter::new();
visit::walk_crate(&mut counter, krate);
counter.count
}
declare_box_region_type!(
pub BoxedResolver,
for(),
(&mut Resolver<'_>) -> (Result<ast::Crate>, ResolverOutputs)
);
/// Runs the "early phases" of the compiler: initial `cfg` processing, loading compiler plugins,
/// syntax expansion, secondary `cfg` expansion, synthesis of a test
/// harness if one is to be provided, injection of a dependency on the
/// standard library and prelude, and name resolution.
///
/// Returns `None` if we're aborting after handling -W help.
pub fn configure_and_expand(
sess: Lrc<Session>,
lint_store: Lrc<lint::LintStore>,
metadata_loader: Box<MetadataLoaderDyn>,
krate: ast::Crate,
crate_name: &str,
) -> Result<(ast::Crate, BoxedResolver)> {
// Currently, we ignore the name resolution data structures for the purposes of dependency
// tracking. Instead we will run name resolution and include its output in the hash of each
// item, much like we do for macro expansion. In other words, the hash reflects not just
// its contents but the results of name resolution on those contents. Hopefully we'll push
// this back at some point.
let crate_name = crate_name.to_string();
let (result, resolver) = BoxedResolver::new(static move || {
let sess = &*sess;
let resolver_arenas = Resolver::arenas();
let res = configure_and_expand_inner(
sess,
&lint_store,
krate,
&crate_name,
&resolver_arenas,
&*metadata_loader,
);
let mut resolver = match res {
Err(v) => {
yield BoxedResolver::initial_yield(Err(v));
panic!()
}
Ok((krate, resolver)) => {
yield BoxedResolver::initial_yield(Ok(krate));
resolver
}
};
box_region_allow_access!(for(), (&mut Resolver<'_>), (&mut resolver));
resolver.into_outputs()
});
result.map(|k| (k, resolver))
}
impl BoxedResolver {
pub fn to_resolver_outputs(resolver: Rc<RefCell<BoxedResolver>>) -> ResolverOutputs {
match Rc::try_unwrap(resolver) {
Ok(resolver) => resolver.into_inner().complete(),
Err(resolver) => resolver.borrow_mut().access(|resolver| resolver.clone_outputs()),
}
}
}
pub fn register_plugins<'a>(
sess: &'a Session,
metadata_loader: &'a dyn MetadataLoader,
register_lints: impl Fn(&Session, &mut lint::LintStore),
mut krate: ast::Crate,
crate_name: &str,
) -> Result<(ast::Crate, Lrc<lint::LintStore>)> {
krate = time(sess, "attributes injection", || {
syntax_ext::cmdline_attrs::inject(
krate, &sess.parse_sess, &sess.opts.debugging_opts.crate_attr
)
});
let (krate, features) = syntax_expand::config::features(
krate,
&sess.parse_sess,
sess.edition(),
&sess.opts.debugging_opts.allow_features,
);
// these need to be set "early" so that expansion sees `quote` if enabled.
sess.init_features(features);
let crate_types = util::collect_crate_types(sess, &krate.attrs);
sess.crate_types.set(crate_types);
let disambiguator = util::compute_crate_disambiguator(sess);
sess.crate_disambiguator.set(disambiguator);
rustc_incremental::prepare_session_directory(sess, &crate_name, disambiguator);
if sess.opts.incremental.is_some() {
time(sess, "garbage-collect incremental cache directory", || {
let _prof_timer =
sess.prof.generic_activity("incr_comp_garbage_collect_session_directories");
if let Err(e) = rustc_incremental::garbage_collect_session_directories(sess) {
warn!(
"Error while trying to garbage collect incremental \
compilation cache directory: {}",
e
);
}
});
}
time(sess, "recursion limit", || {
middle::recursion_limit::update_limits(sess, &krate);
});
let mut lint_store = rustc_lint::new_lint_store(
sess.opts.debugging_opts.no_interleave_lints,
sess.unstable_options(),
);
register_lints(&sess, &mut lint_store);
let registrars = time(sess, "plugin loading", || {
plugin::load::load_plugins(sess, metadata_loader, &krate)
});
time(sess, "plugin registration", || {
let mut registry = plugin::Registry { lint_store: &mut lint_store };
for registrar in registrars {
registrar(&mut registry);
}
});
Ok((krate, Lrc::new(lint_store)))
}
fn configure_and_expand_inner<'a>(
sess: &'a Session,
lint_store: &'a lint::LintStore,
mut krate: ast::Crate,
crate_name: &str,
resolver_arenas: &'a ResolverArenas<'a>,
metadata_loader: &'a MetadataLoaderDyn,
) -> Result<(ast::Crate, Resolver<'a>)> {
time(sess, "pre-AST-expansion lint checks", || {
lint::check_ast_crate(
sess,
lint_store,
&krate,
true,
None,
rustc_lint::BuiltinCombinedPreExpansionLintPass::new());
});
let mut resolver = Resolver::new(
sess,
&krate,
crate_name,
metadata_loader,
&resolver_arenas,
);
syntax_ext::register_builtin_macros(&mut resolver, sess.edition());
krate = time(sess, "crate injection", || {
let alt_std_name = sess.opts.alt_std_name.as_ref().map(|s| Symbol::intern(s));
let (krate, name) = syntax_ext::standard_library_imports::inject(
krate,
&mut resolver,
&sess.parse_sess,
alt_std_name,
);
if let Some(name) = name {
sess.parse_sess.injected_crate_name.set(name);
}
krate
});
util::check_attr_crate_type(&krate.attrs, &mut resolver.lint_buffer());
// Expand all macros
krate = time(sess, "expansion", || {
let _prof_timer = sess.prof.generic_activity("macro_expand_crate");
// Windows dlls do not have rpaths, so they don't know how to find their
// dependencies. It's up to us to tell the system where to find all the
// dependent dlls. Note that this uses cfg!(windows) as opposed to
// targ_cfg because syntax extensions are always loaded for the host
// compiler, not for the target.
//
// This is somewhat of an inherently racy operation, however, as
// multiple threads calling this function could possibly continue
// extending PATH far beyond what it should. To solve this for now we
// just don't add any new elements to PATH which are already there
// within PATH. This is basically a targeted fix at #17360 for rustdoc
// which runs rustc in parallel but has been seen (#33844) to cause
// problems with PATH becoming too long.
let mut old_path = OsString::new();
if cfg!(windows) {
old_path = env::var_os("PATH").unwrap_or(old_path);
let mut new_path = sess.host_filesearch(PathKind::All).search_path_dirs();
for path in env::split_paths(&old_path) {
if !new_path.contains(&path) {
new_path.push(path);
}
}
env::set_var(
"PATH",
&env::join_paths(
new_path
.iter()
.filter(|p| env::join_paths(iter::once(p)).is_ok()),
).unwrap(),
);
}
// Create the config for macro expansion
let features = sess.features_untracked();
let cfg = syntax_expand::expand::ExpansionConfig {
features: Some(&features),
recursion_limit: *sess.recursion_limit.get(),
trace_mac: sess.opts.debugging_opts.trace_macros,
should_test: sess.opts.test,
..syntax_expand::expand::ExpansionConfig::default(crate_name.to_string())
};
let mut ecx = ExtCtxt::new(&sess.parse_sess, cfg, &mut resolver);
// Expand macros now!
let krate = time(sess, "expand crate", || {
ecx.monotonic_expander().expand_crate(krate)
});
// The rest is error reporting
time(sess, "check unused macros", || {
ecx.check_unused_macros();
});
let mut missing_fragment_specifiers: Vec<_> = ecx.parse_sess
.missing_fragment_specifiers
.borrow()
.iter()
.cloned()
.collect();
missing_fragment_specifiers.sort();
for span in missing_fragment_specifiers {
let lint = lint::builtin::MISSING_FRAGMENT_SPECIFIER;
let msg = "missing fragment specifier";
resolver.lint_buffer().buffer_lint(lint, ast::CRATE_NODE_ID, span, msg);
}
if cfg!(windows) {
env::set_var("PATH", &old_path);
}
krate
});
time(sess, "maybe building test harness", || {
syntax_ext::test_harness::inject(
&sess.parse_sess,
&mut resolver,
sess.opts.test,
&mut krate,
sess.diagnostic(),
&sess.features_untracked(),
sess.panic_strategy(),
sess.target.target.options.panic_strategy,
sess.opts.debugging_opts.panic_abort_tests,
)
});
// If we're actually rustdoc then there's no need to actually compile
// anything, so switch everything to just looping
let mut should_loop = sess.opts.actually_rustdoc;
if let Some(PpMode::PpmSource(PpSourceMode::PpmEveryBodyLoops)) = sess.opts.pretty {
should_loop |= true;
}
if should_loop {
util::ReplaceBodyWithLoop::new(&mut resolver).visit_crate(&mut krate);
}
let has_proc_macro_decls = time(sess, "AST validation", || {
ast_validation::check_crate(sess, &krate, &mut resolver.lint_buffer())
});
let crate_types = sess.crate_types.borrow();
let is_proc_macro_crate = crate_types.contains(&config::CrateType::ProcMacro);
// For backwards compatibility, we don't try to run proc macro injection
// if rustdoc is run on a proc macro crate without '--crate-type proc-macro' being
// specified. This should only affect users who manually invoke 'rustdoc', as
// 'cargo doc' will automatically pass the proper '--crate-type' flags.
// However, we do emit a warning, to let such users know that they should
// start passing '--crate-type proc-macro'
if has_proc_macro_decls && sess.opts.actually_rustdoc && !is_proc_macro_crate {
let mut msg = sess.diagnostic().struct_warn(&"Trying to document proc macro crate \
without passing '--crate-type proc-macro to rustdoc");
msg.warn("The generated documentation may be incorrect");
msg.emit()
} else {
krate = time(sess, "maybe creating a macro crate", || {
let num_crate_types = crate_types.len();
let is_test_crate = sess.opts.test;
syntax_ext::proc_macro_harness::inject(
&sess.parse_sess,
&mut resolver,
krate,
is_proc_macro_crate,
has_proc_macro_decls,
is_test_crate,
num_crate_types,
sess.diagnostic(),
)
});
}
// Done with macro expansion!
if sess.opts.debugging_opts.input_stats {
println!("Post-expansion node count: {}", count_nodes(&krate));
}
if sess.opts.debugging_opts.hir_stats {
hir_stats::print_ast_stats(&krate, "POST EXPANSION AST STATS");
}
if sess.opts.debugging_opts.ast_json {
println!("{}", json::as_json(&krate));
}
time(sess, "name resolution", || {
resolver.resolve_crate(&krate);
});
// Needs to go *after* expansion to be able to check the results of macro expansion.
time(sess, "complete gated feature checking", || {
syntax::feature_gate::check_crate(
&krate,
&sess.parse_sess,
&sess.features_untracked(),
sess.opts.unstable_features,
);
});
// Add all buffered lints from the `ParseSess` to the `Session`.
sess.parse_sess.buffered_lints.with_lock(|buffered_lints| {
info!("{} parse sess buffered_lints", buffered_lints.len());
for BufferedEarlyLint{id, span, msg, lint_id} in buffered_lints.drain(..) {
resolver.lint_buffer().buffer_lint(lint_id, id, span, &msg);
}
});
Ok((krate, resolver))
}
pub fn lower_to_hir(
sess: &Session,
lint_store: &lint::LintStore,
resolver: &mut Resolver<'_>,
dep_graph: &DepGraph,
krate: &ast::Crate,
) -> Result<hir::map::Forest> {
// Lower AST to HIR.
let hir_forest = time(sess, "lowering AST -> HIR", || {
let nt_to_tokenstream = rustc_parse::nt_to_tokenstream;
let hir_crate = lower_crate(sess, &dep_graph, &krate, resolver, nt_to_tokenstream);
if sess.opts.debugging_opts.hir_stats {
hir_stats::print_hir_stats(&hir_crate);
}
hir::map::Forest::new(hir_crate, &dep_graph)
});
time(sess, "early lint checks", || {
lint::check_ast_crate(
sess,
lint_store,
&krate,
false,
Some(std::mem::take(resolver.lint_buffer())),
rustc_lint::BuiltinCombinedEarlyLintPass::new(),
)
});
// Discard hygiene data, which isn't required after lowering to HIR.
if !sess.opts.debugging_opts.keep_hygiene_data {
syntax_pos::hygiene::clear_syntax_context_map();
}
Ok(hir_forest)
}
// Returns all the paths that correspond to generated files.
fn generated_output_paths(
sess: &Session,
outputs: &OutputFilenames,
exact_name: bool,
crate_name: &str,
) -> Vec<PathBuf> {
let mut out_filenames = Vec::new();
for output_type in sess.opts.output_types.keys() {
let file = outputs.path(*output_type);
match *output_type {
// If the filename has been overridden using `-o`, it will not be modified
// by appending `.rlib`, `.exe`, etc., so we can skip this transformation.
OutputType::Exe if !exact_name => for crate_type in sess.crate_types.borrow().iter() {
let p = ::rustc_codegen_utils::link::filename_for_input(
sess,
*crate_type,
crate_name,
outputs,
);
out_filenames.push(p);
},
OutputType::DepInfo if sess.opts.debugging_opts.dep_info_omit_d_target => {
// Don't add the dep-info output when omitting it from dep-info targets
}
_ => {
out_filenames.push(file);
}
}
}
out_filenames
}
// Runs `f` on every output file path and returns the first non-None result, or None if `f`
// returns None for every file path.
fn check_output<F, T>(output_paths: &[PathBuf], f: F) -> Option<T>
where
F: Fn(&PathBuf) -> Option<T>,
{
for output_path in output_paths {
if let Some(result) = f(output_path) {
return Some(result);
}
}
None
}
fn output_contains_path(output_paths: &[PathBuf], input_path: &PathBuf) -> bool {
let input_path = input_path.canonicalize().ok();
if input_path.is_none() {
return false;
}
let check = |output_path: &PathBuf| {
if output_path.canonicalize().ok() == input_path {
Some(())
} else {
None
}
};
check_output(output_paths, check).is_some()
}
fn output_conflicts_with_dir(output_paths: &[PathBuf]) -> Option<PathBuf> {
let check = |output_path: &PathBuf| output_path.is_dir().then(|| output_path.clone());
check_output(output_paths, check)
}
fn escape_dep_filename(filename: &FileName) -> String {
// Apparently clang and gcc *only* escape spaces:
// http://llvm.org/klaus/clang/commit/9d50634cfc268ecc9a7250226dd5ca0e945240d4
filename.to_string().replace(" ", "\\ ")
}
fn write_out_deps(
sess: &Session,
boxed_resolver: &Steal<Rc<RefCell<BoxedResolver>>>,
outputs: &OutputFilenames,
out_filenames: &[PathBuf],
) {
// Write out dependency rules to the dep-info file if requested
if !sess.opts.output_types.contains_key(&OutputType::DepInfo) {
return;
}
let deps_filename = outputs.path(OutputType::DepInfo);
let result = (|| -> io::Result<()> {
// Build a list of files used to compile the output and
// write Makefile-compatible dependency rules
let mut files: Vec<String> = sess.source_map()
.files()
.iter()
.filter(|fmap| fmap.is_real_file())
.filter(|fmap| !fmap.is_imported())
.map(|fmap| escape_dep_filename(&fmap.unmapped_path.as_ref().unwrap_or(&fmap.name)))
.collect();
if sess.binary_dep_depinfo() {
boxed_resolver.borrow().borrow_mut().access(|resolver| {
for cnum in resolver.cstore().crates_untracked() {
let source = resolver.cstore().crate_source_untracked(cnum);
if let Some((path, _)) = source.dylib {
files.push(escape_dep_filename(&FileName::Real(path)));
}
if let Some((path, _)) = source.rlib {
files.push(escape_dep_filename(&FileName::Real(path)));
}
if let Some((path, _)) = source.rmeta {
files.push(escape_dep_filename(&FileName::Real(path)));
}
}
});
}
let mut file = fs::File::create(&deps_filename)?;
for path in out_filenames {
writeln!(file, "{}: {}\n", path.display(), files.join(" "))?;
}
// Emit a fake target for each input file to the compilation. This
// prevents `make` from spitting out an error if a file is later
// deleted. For more info see #28735
for path in files {
writeln!(file, "{}:", path)?;
}
Ok(())
})();
match result {
Ok(_) => {
if sess.opts.json_artifact_notifications {
sess.parse_sess.span_diagnostic
.emit_artifact_notification(&deps_filename, "dep-info");
}
},
Err(e) => {
sess.fatal(&format!(
"error writing dependencies to `{}`: {}",
deps_filename.display(),
e
))
}
}
}
pub fn prepare_outputs(
sess: &Session,
compiler: &Compiler,
krate: &ast::Crate,
boxed_resolver: &Steal<Rc<RefCell<BoxedResolver>>>,
crate_name: &str
) -> Result<OutputFilenames> {
// FIXME: rustdoc passes &[] instead of &krate.attrs here
let outputs = util::build_output_filenames(
&compiler.input,
&compiler.output_dir,
&compiler.output_file,
&krate.attrs,
sess
);
let output_paths = generated_output_paths(
sess,
&outputs,
compiler.output_file.is_some(),
&crate_name,
);
// Ensure the source file isn't accidentally overwritten during compilation.
if let Some(ref input_path) = compiler.input_path {
if sess.opts.will_create_output_file() {
if output_contains_path(&output_paths, input_path) {
sess.err(&format!(
"the input file \"{}\" would be overwritten by the generated \
executable",
input_path.display()
));
return Err(ErrorReported);
}
if let Some(dir_path) = output_conflicts_with_dir(&output_paths) {
sess.err(&format!(
"the generated executable for the input file \"{}\" conflicts with the \
existing directory \"{}\"",
input_path.display(),
dir_path.display()
));
return Err(ErrorReported);
}
}
}
write_out_deps(sess, boxed_resolver, &outputs, &output_paths);
let only_dep_info = sess.opts.output_types.contains_key(&OutputType::DepInfo)
&& sess.opts.output_types.len() == 1;
if !only_dep_info {
if let Some(ref dir) = compiler.output_dir {
if fs::create_dir_all(dir).is_err() {
sess.err("failed to find or create the directory specified by `--out-dir`");
return Err(ErrorReported);
}
}
}
Ok(outputs)
}
pub fn default_provide(providers: &mut ty::query::Providers<'_>) {
providers.analysis = analysis;
proc_macro_decls::provide(providers);
plugin::build::provide(providers);
hir::provide(providers);
mir::provide(providers);
reachable::provide(providers);
resolve_lifetime::provide(providers);
rustc_privacy::provide(providers);
typeck::provide(providers);
ty::provide(providers);
traits::provide(providers);
stability::provide(providers);
reachable::provide(providers);
rustc_passes::provide(providers);
rustc_traits::provide(providers);
middle::region::provide(providers);
rustc_metadata::provide(providers);
lint::provide(providers);
rustc_lint::provide(providers);
rustc_codegen_utils::provide(providers);
rustc_codegen_ssa::provide(providers);
}
pub fn default_provide_extern(providers: &mut ty::query::Providers<'_>) {
rustc_metadata::provide_extern(providers);
rustc_codegen_ssa::provide_extern(providers);
}
pub struct QueryContext<'tcx>(&'tcx GlobalCtxt<'tcx>);
impl<'tcx> QueryContext<'tcx> {
pub fn enter<F, R>(&mut self, f: F) -> R
where
F: FnOnce(TyCtxt<'tcx>) -> R,
{
ty::tls::enter_global(self.0, |tcx| f(tcx))
}
pub fn print_stats(&self) {
self.0.queries.print_stats()
}
}
pub fn create_global_ctxt<'tcx>(
compiler: &'tcx Compiler,
lint_store: Lrc<lint::LintStore>,
hir_forest: &'tcx hir::map::Forest,
mut resolver_outputs: ResolverOutputs,
outputs: OutputFilenames,
crate_name: &str,
global_ctxt: &'tcx Once<GlobalCtxt<'tcx>>,
all_arenas: &'tcx AllArenas,
arena: &'tcx WorkerLocal<Arena<'tcx>>,
) -> QueryContext<'tcx> {
let sess = &compiler.session();
let defs = mem::take(&mut resolver_outputs.definitions);
// Construct the HIR map.
let hir_map = time(sess, "indexing HIR", || {
hir::map::map_crate(sess, &*resolver_outputs.cstore, &hir_forest, defs)
});
let query_result_on_disk_cache = time(sess, "load query result cache", || {
rustc_incremental::load_query_result_cache(sess)
});
let codegen_backend = compiler.codegen_backend();
let mut local_providers = ty::query::Providers::default();
default_provide(&mut local_providers);
codegen_backend.provide(&mut local_providers);
let mut extern_providers = local_providers;
default_provide_extern(&mut extern_providers);
codegen_backend.provide_extern(&mut extern_providers);
if let Some(callback) = compiler.override_queries {
callback(sess, &mut local_providers, &mut extern_providers);
}
let gcx = global_ctxt.init_locking(|| TyCtxt::create_global_ctxt(
sess,
lint_store,
local_providers,
extern_providers,
&all_arenas,
arena,
resolver_outputs,
hir_map,
query_result_on_disk_cache,
&crate_name,
&outputs
));
// Do some initialization of the DepGraph that can only be done with the tcx available.
ty::tls::enter_global(&gcx, |tcx| {
time(tcx.sess, "dep graph tcx init", || rustc_incremental::dep_graph_tcx_init(tcx));
});
QueryContext(gcx)
}
/// Runs the resolution, type-checking, region checking and other
/// miscellaneous analysis passes on the crate.
fn analysis(tcx: TyCtxt<'_>, cnum: CrateNum) -> Result<()> {
assert_eq!(cnum, LOCAL_CRATE);
let sess = tcx.sess;
let mut entry_point = None;
time(sess, "misc checking 1", || {
parallel!({
entry_point = time(sess, "looking for entry point", || {
rustc_passes::entry::find_entry_point(tcx)
});
time(sess, "looking for plugin registrar", || {
plugin::build::find_plugin_registrar(tcx)
});
time(sess, "looking for derive registrar", || {
proc_macro_decls::find(tcx)
});
}, {
par_iter(&tcx.hir().krate().modules).for_each(|(&module, _)| {
let local_def_id = tcx.hir().local_def_id(module);
tcx.ensure().check_mod_loops(local_def_id);
tcx.ensure().check_mod_attrs(local_def_id);
tcx.ensure().check_mod_unstable_api_usage(local_def_id);
tcx.ensure().check_mod_const_bodies(local_def_id);
});
});
});
// passes are timed inside typeck
typeck::check_crate(tcx)?;
time(sess, "misc checking 2", || {
parallel!({
time(sess, "match checking", || {
tcx.par_body_owners(|def_id| {
tcx.ensure().check_match(def_id);
});
});
}, {
time(sess, "liveness checking + intrinsic checking", || {
par_iter(&tcx.hir().krate().modules).for_each(|(&module, _)| {
// this must run before MIR dump, because
// "not all control paths return a value" is reported here.
//
// maybe move the check to a MIR pass?
let local_def_id = tcx.hir().local_def_id(module);
tcx.ensure().check_mod_liveness(local_def_id);
tcx.ensure().check_mod_intrinsics(local_def_id);
});
});
});
});
time(sess, "MIR borrow checking", || {
tcx.par_body_owners(|def_id| tcx.ensure().mir_borrowck(def_id));
});
time(sess, "dumping Chalk-like clauses", || {
rustc_traits::lowering::dump_program_clauses(tcx);
});
time(sess, "MIR effect checking", || {
for def_id in tcx.body_owners() {
mir::transform::check_unsafety::check_unsafety(tcx, def_id)
}
});
time(sess, "layout testing", || layout_test::test_layout(tcx));
// Avoid overwhelming user with errors if borrow checking failed.
// I'm not sure how helpful this is, to be honest, but it avoids a
// lot of annoying errors in the compile-fail tests (basically,
// lint warnings and so on -- kindck used to do this abort, but
// kindck is gone now). -nmatsakis
if sess.has_errors() {
return Err(ErrorReported);
}
time(sess, "misc checking 3", || {
parallel!({
time(sess, "privacy access levels", || {
tcx.ensure().privacy_access_levels(LOCAL_CRATE);
});
parallel!({
time(sess, "private in public", || {
tcx.ensure().check_private_in_public(LOCAL_CRATE);
});
}, {
time(sess, "death checking", || rustc_passes::dead::check_crate(tcx));
}, {
time(sess, "unused lib feature checking", || {
stability::check_unused_or_stable_features(tcx)
});
}, {
time(sess, "lint checking", || {
lint::check_crate(tcx, || rustc_lint::BuiltinCombinedLateLintPass::new());
});
});
}, {
time(sess, "privacy checking modules", || {
par_iter(&tcx.hir().krate().modules).for_each(|(&module, _)| {
tcx.ensure().check_mod_privacy(tcx.hir().local_def_id(module));
});
});
});
});
Ok(())
}
fn encode_and_write_metadata(
tcx: TyCtxt<'_>,
outputs: &OutputFilenames,
) -> (middle::cstore::EncodedMetadata, bool) {
#[derive(PartialEq, Eq, PartialOrd, Ord)]
enum MetadataKind {
None,
Uncompressed,
Compressed
}
let metadata_kind = tcx.sess.crate_types.borrow().iter().map(|ty| {
match *ty {
CrateType::Executable |
CrateType::Staticlib |
CrateType::Cdylib => MetadataKind::None,
CrateType::Rlib => MetadataKind::Uncompressed,
CrateType::Dylib |
CrateType::ProcMacro => MetadataKind::Compressed,
}
}).max().unwrap_or(MetadataKind::None);
let metadata = match metadata_kind {
MetadataKind::None => middle::cstore::EncodedMetadata::new(),
MetadataKind::Uncompressed |
MetadataKind::Compressed => tcx.encode_metadata(),
};
let need_metadata_file = tcx.sess.opts.output_types.contains_key(&OutputType::Metadata);
if need_metadata_file {
let crate_name = &tcx.crate_name(LOCAL_CRATE).as_str();
let out_filename = filename_for_metadata(tcx.sess, crate_name, outputs);
// To avoid races with another rustc process scanning the output directory,
// we need to write the file somewhere else and atomically move it to its
// final destination, with an `fs::rename` call. In order for the rename to
// always succeed, the temporary file needs to be on the same filesystem,
// which is why we create it inside the output directory specifically.
let metadata_tmpdir = TempFileBuilder::new()
.prefix("rmeta")
.tempdir_in(out_filename.parent().unwrap())
.unwrap_or_else(|err| {
tcx.sess.fatal(&format!("couldn't create a temp dir: {}", err))
});
let metadata_filename = emit_metadata(tcx.sess, &metadata, &metadata_tmpdir);
if let Err(e) = fs::rename(&metadata_filename, &out_filename) {
tcx.sess.fatal(&format!("failed to write {}: {}", out_filename.display(), e));
}
if tcx.sess.opts.json_artifact_notifications {
tcx.sess.parse_sess.span_diagnostic
.emit_artifact_notification(&out_filename, "metadata");
}
}
let need_metadata_module = metadata_kind == MetadataKind::Compressed;
(metadata, need_metadata_module)
}
/// Runs the codegen backend, after which the AST and analysis can
/// be discarded.
pub fn start_codegen<'tcx>(
codegen_backend: &dyn CodegenBackend,
tcx: TyCtxt<'tcx>,
outputs: &OutputFilenames,
) -> Box<dyn Any> {
if log_enabled!(::log::Level::Info) {
println!("Pre-codegen");
tcx.print_debug_stats();
}
let (metadata, need_metadata_module) = time(tcx.sess, "metadata encoding and writing", || {
encode_and_write_metadata(tcx, outputs)
});
let codegen = time(tcx.sess, "codegen", move || {
let _prof_timer = tcx.prof.generic_activity("codegen_crate");
codegen_backend.codegen_crate(tcx, metadata, need_metadata_module)
});
if log_enabled!(::log::Level::Info) {
println!("Post-codegen");
tcx.print_debug_stats();
}
if tcx.sess.opts.output_types.contains_key(&OutputType::Mir) {
if let Err(e) = mir::transform::dump_mir::emit_mir(tcx, outputs) {
tcx.sess.err(&format!("could not emit MIR: {}", e));
tcx.sess.abort_if_errors();
}
}
codegen
}