use crate::errors::{FailedWritingFile, RustcErrorFatal, RustcErrorUnexpectedAnnotation}; use crate::interface::{Compiler, Result}; use crate::passes::{self, BoxedResolver, QueryContext}; use rustc_ast as ast; use rustc_codegen_ssa::traits::CodegenBackend; use rustc_codegen_ssa::CodegenResults; use rustc_data_structures::svh::Svh; use rustc_data_structures::sync::{Lrc, OnceCell, WorkerLocal}; use rustc_hir::def_id::LOCAL_CRATE; use rustc_incremental::DepGraphFuture; use rustc_lint::LintStore; use rustc_middle::arena::Arena; use rustc_middle::dep_graph::DepGraph; use rustc_middle::ty::{GlobalCtxt, TyCtxt}; use rustc_query_impl::Queries as TcxQueries; use rustc_session::config::{self, OutputFilenames, OutputType}; use rustc_session::{output::find_crate_name, Session}; use rustc_span::symbol::sym; use std::any::Any; use std::cell::{Ref, RefCell, RefMut}; use std::rc::Rc; /// Represent the result of a query. /// /// This result can be stolen with the [`take`] method and generated with the [`compute`] method. /// /// [`take`]: Self::take /// [`compute`]: Self::compute pub struct Query { result: RefCell>>, } impl Query { fn compute Result>(&self, f: F) -> Result<&Query> { let mut result = self.result.borrow_mut(); if result.is_none() { *result = Some(f()); } result.as_ref().unwrap().as_ref().map(|_| self).map_err(|err| *err) } /// Takes ownership of the query result. Further attempts to take or peek the query /// result will panic unless it is generated by calling the `compute` method. pub fn take(&self) -> T { self.result.borrow_mut().take().expect("missing query result").unwrap() } /// Borrows the query result using the RefCell. Panics if the result is stolen. pub fn peek(&self) -> Ref<'_, T> { Ref::map(self.result.borrow(), |r| { r.as_ref().unwrap().as_ref().expect("missing query result") }) } /// Mutably borrows the query result using the RefCell. Panics if the result is stolen. pub fn peek_mut(&self) -> RefMut<'_, T> { RefMut::map(self.result.borrow_mut(), |r| { r.as_mut().unwrap().as_mut().expect("missing query result") }) } } impl Default for Query { fn default() -> Self { Query { result: RefCell::new(None) } } } pub struct Queries<'tcx> { compiler: &'tcx Compiler, gcx: OnceCell>, queries: OnceCell>, arena: WorkerLocal>, hir_arena: WorkerLocal>, dep_graph_future: Query>, parse: Query, crate_name: Query, register_plugins: Query<(ast::Crate, Lrc)>, expansion: Query<(Lrc, Rc>, Lrc)>, dep_graph: Query, prepare_outputs: Query, global_ctxt: Query>, ongoing_codegen: Query>, } impl<'tcx> Queries<'tcx> { pub fn new(compiler: &'tcx Compiler) -> Queries<'tcx> { Queries { compiler, gcx: OnceCell::new(), queries: OnceCell::new(), arena: WorkerLocal::new(|_| Arena::default()), hir_arena: WorkerLocal::new(|_| rustc_hir::Arena::default()), dep_graph_future: Default::default(), parse: Default::default(), crate_name: Default::default(), register_plugins: Default::default(), expansion: Default::default(), dep_graph: Default::default(), prepare_outputs: Default::default(), global_ctxt: Default::default(), ongoing_codegen: Default::default(), } } fn session(&self) -> &Lrc { &self.compiler.sess } fn codegen_backend(&self) -> &Lrc> { self.compiler.codegen_backend() } fn dep_graph_future(&self) -> Result<&Query>> { self.dep_graph_future.compute(|| { let sess = self.session(); Ok(sess.opts.build_dep_graph().then(|| rustc_incremental::load_dep_graph(sess))) }) } pub fn parse(&self) -> Result<&Query> { self.parse.compute(|| { passes::parse(self.session(), &self.compiler.input) .map_err(|mut parse_error| parse_error.emit()) }) } pub fn register_plugins(&self) -> Result<&Query<(ast::Crate, Lrc)>> { self.register_plugins.compute(|| { let crate_name = self.crate_name()?.peek().clone(); let krate = self.parse()?.take(); let empty: &(dyn Fn(&Session, &mut LintStore) + Sync + Send) = &|_, _| {}; let (krate, lint_store) = passes::register_plugins( self.session(), &*self.codegen_backend().metadata_loader(), self.compiler.register_lints.as_deref().unwrap_or_else(|| empty), krate, &crate_name, )?; // Compute the dependency graph (in the background). We want to do // this as early as possible, to give the DepGraph maximum time to // load before dep_graph() is called, but it also can't happen // until after rustc_incremental::prepare_session_directory() is // called, which happens within passes::register_plugins(). self.dep_graph_future().ok(); Ok((krate, Lrc::new(lint_store))) }) } pub fn crate_name(&self) -> Result<&Query> { self.crate_name.compute(|| { Ok({ let parse_result = self.parse()?; let krate = parse_result.peek(); // parse `#[crate_name]` even if `--crate-name` was passed, to make sure it matches. find_crate_name(self.session(), &krate.attrs, &self.compiler.input) }) }) } pub fn expansion( &self, ) -> Result<&Query<(Lrc, Rc>, Lrc)>> { trace!("expansion"); self.expansion.compute(|| { let crate_name = self.crate_name()?.peek().clone(); let (krate, lint_store) = self.register_plugins()?.take(); let _timer = self.session().timer("configure_and_expand"); let sess = self.session(); let mut resolver = passes::create_resolver( sess.clone(), self.codegen_backend().metadata_loader(), &krate, &crate_name, ); let krate = resolver.access(|resolver| { passes::configure_and_expand(sess, &lint_store, krate, &crate_name, resolver) })?; Ok((Lrc::new(krate), Rc::new(RefCell::new(resolver)), lint_store)) }) } fn dep_graph(&self) -> Result<&Query> { self.dep_graph.compute(|| { let sess = self.session(); let future_opt = self.dep_graph_future()?.take(); let dep_graph = future_opt .and_then(|future| { let (prev_graph, prev_work_products) = sess.time("blocked_on_dep_graph_loading", || future.open().open(sess)); rustc_incremental::build_dep_graph(sess, prev_graph, prev_work_products) }) .unwrap_or_else(DepGraph::new_disabled); Ok(dep_graph) }) } pub fn prepare_outputs(&self) -> Result<&Query> { self.prepare_outputs.compute(|| { let (krate, boxed_resolver, _) = &*self.expansion()?.peek(); let crate_name = self.crate_name()?.peek(); passes::prepare_outputs( self.session(), self.compiler, krate, &*boxed_resolver, &crate_name, ) }) } pub fn global_ctxt(&'tcx self) -> Result<&Query>> { self.global_ctxt.compute(|| { let crate_name = self.crate_name()?.peek().clone(); let outputs = self.prepare_outputs()?.peek().clone(); let dep_graph = self.dep_graph()?.peek().clone(); let (krate, resolver, lint_store) = self.expansion()?.take(); Ok(passes::create_global_ctxt( self.compiler, lint_store, krate, dep_graph, resolver, outputs, &crate_name, &self.queries, &self.gcx, &self.arena, &self.hir_arena, )) }) } pub fn ongoing_codegen(&'tcx self) -> Result<&Query>> { self.ongoing_codegen.compute(|| { let outputs = self.prepare_outputs()?; self.global_ctxt()?.peek_mut().enter(|tcx| { tcx.analysis(()).ok(); // Don't do code generation if there were any errors self.session().compile_status()?; // If we have any delayed bugs, for example because we created TyKind::Error earlier, // it's likely that codegen will only cause more ICEs, obscuring the original problem self.session().diagnostic().flush_delayed(); // Hook for UI tests. Self::check_for_rustc_errors_attr(tcx); Ok(passes::start_codegen(&***self.codegen_backend(), tcx, &*outputs.peek())) }) }) } /// Check for the `#[rustc_error]` annotation, which forces an error in codegen. This is used /// to write UI tests that actually test that compilation succeeds without reporting /// an error. fn check_for_rustc_errors_attr(tcx: TyCtxt<'_>) { let Some((def_id, _)) = tcx.entry_fn(()) else { return }; for attr in tcx.get_attrs(def_id, sym::rustc_error) { match attr.meta_item_list() { // Check if there is a `#[rustc_error(delay_span_bug_from_inside_query)]`. Some(list) if list.iter().any(|list_item| { matches!( list_item.ident().map(|i| i.name), Some(sym::delay_span_bug_from_inside_query) ) }) => { tcx.ensure().trigger_delay_span_bug(def_id); } // Bare `#[rustc_error]`. None => { tcx.sess.emit_fatal(RustcErrorFatal { span: tcx.def_span(def_id) }); } // Some other attribute. Some(_) => { tcx.sess.emit_warning(RustcErrorUnexpectedAnnotation { span: tcx.def_span(def_id), }); } } } } pub fn linker(&'tcx self) -> Result { let sess = self.session().clone(); let codegen_backend = self.codegen_backend().clone(); let dep_graph = self.dep_graph()?.peek().clone(); let prepare_outputs = self.prepare_outputs()?.take(); let crate_hash = self.global_ctxt()?.peek_mut().enter(|tcx| tcx.crate_hash(LOCAL_CRATE)); let ongoing_codegen = self.ongoing_codegen()?.take(); Ok(Linker { sess, codegen_backend, dep_graph, prepare_outputs, crate_hash, ongoing_codegen, }) } } pub struct Linker { // compilation inputs sess: Lrc, codegen_backend: Lrc>, // compilation outputs dep_graph: DepGraph, prepare_outputs: OutputFilenames, crate_hash: Svh, ongoing_codegen: Box, } impl Linker { pub fn link(self) -> Result<()> { let (codegen_results, work_products) = self.codegen_backend.join_codegen( self.ongoing_codegen, &self.sess, &self.prepare_outputs, )?; self.sess.compile_status()?; let sess = &self.sess; let dep_graph = self.dep_graph; sess.time("serialize_work_products", || { rustc_incremental::save_work_product_index(sess, &dep_graph, work_products) }); let prof = self.sess.prof.clone(); prof.generic_activity("drop_dep_graph").run(move || drop(dep_graph)); // Now that we won't touch anything in the incremental compilation directory // any more, we can finalize it (which involves renaming it) rustc_incremental::finalize_session_directory(&self.sess, self.crate_hash); if !self .sess .opts .output_types .keys() .any(|&i| i == OutputType::Exe || i == OutputType::Metadata) { return Ok(()); } if sess.opts.unstable_opts.no_link { let encoded = CodegenResults::serialize_rlink(&codegen_results); let rlink_file = self.prepare_outputs.with_extension(config::RLINK_EXT); std::fs::write(&rlink_file, encoded) .map_err(|error| sess.emit_fatal(FailedWritingFile { path: &rlink_file, error }))?; return Ok(()); } let _timer = sess.prof.verbose_generic_activity("link_crate"); self.codegen_backend.link(&self.sess, codegen_results, &self.prepare_outputs) } } impl Compiler { pub fn enter(&self, f: F) -> T where F: for<'tcx> FnOnce(&'tcx Queries<'tcx>) -> T, { let mut _timer = None; let queries = Queries::new(self); let ret = f(&queries); // NOTE: intentionally does not compute the global context if it hasn't been built yet, // since that likely means there was a parse error. if let Some(Ok(gcx)) = &mut *queries.global_ctxt.result.borrow_mut() { // We assume that no queries are run past here. If there are new queries // after this point, they'll show up as "" in self-profiling data. { let _prof_timer = queries.session().prof.generic_activity("self_profile_alloc_query_strings"); gcx.enter(rustc_query_impl::alloc_self_profile_query_strings); } self.session() .time("serialize_dep_graph", || gcx.enter(rustc_incremental::save_dep_graph)); } _timer = Some(self.session().timer("free_global_ctxt")); ret } }