//! The "main crate" of the Rust compiler. This crate contains common //! type definitions that are used by the other crates in the rustc //! "family". Some prominent examples (note that each of these modules //! has their own README with further details). //! //! - **HIR.** The "high-level (H) intermediate representation (IR)" is //! defined in the `hir` module. //! - **MIR.** The "mid-level (M) intermediate representation (IR)" is //! defined in the `mir` module. This module contains only the //! *definition* of the MIR; the passes that transform and operate //! on MIR are found in `librustc_mir` crate. //! - **Types.** The internal representation of types used in rustc is //! defined in the `ty` module. This includes the **type context** //! (or `tcx`), which is the central context during most of //! compilation, containing the interners and other things. //! - **Traits.** Trait resolution is implemented in the `traits` module. //! - **Type inference.** The type inference code can be found in the `infer` module; //! this code handles low-level equality and subtyping operations. The //! type check pass in the compiler is found in the `librustc_typeck` crate. //! //! For more information about how rustc works, see the [rustc guide]. //! //! [rustc guide]: https://rust-lang.github.io/rustc-guide/ //! //! # Note //! //! This API is completely unstable and subject to change. #![doc(html_root_url = "https://doc.rust-lang.org/nightly/")] #![feature(arbitrary_self_types)] #![feature(box_patterns)] #![feature(box_syntax)] #![feature(const_fn)] #![feature(const_transmute)] #![feature(core_intrinsics)] #![feature(drain_filter)] #![feature(inner_deref)] #![cfg_attr(windows, feature(libc))] #![feature(never_type)] #![feature(exhaustive_patterns)] #![feature(overlapping_marker_traits)] #![feature(extern_types)] #![feature(nll)] #![feature(non_exhaustive)] #![feature(optin_builtin_traits)] #![feature(range_is_empty)] #![feature(rustc_diagnostic_macros)] #![feature(slice_patterns)] #![feature(specialization)] #![feature(unboxed_closures)] #![feature(thread_local)] #![feature(trace_macros)] #![feature(trusted_len)] #![feature(vec_remove_item)] #![feature(stmt_expr_attributes)] #![feature(integer_atomics)] #![feature(test)] #![feature(in_band_lifetimes)] #![feature(crate_visibility_modifier)] #![feature(proc_macro_hygiene)] #![feature(log_syntax)] #![feature(mem_take)] #![recursion_limit="512"] #[macro_use] extern crate bitflags; extern crate getopts; #[macro_use] extern crate lazy_static; #[macro_use] extern crate scoped_tls; #[cfg(windows)] extern crate libc; #[macro_use] extern crate rustc_macros; #[macro_use] extern crate rustc_data_structures; #[macro_use] extern crate log; #[macro_use] extern crate syntax; #[macro_use] extern crate smallvec; // Use the test crate here so we depend on getopts through it. This allow tools to link to both // librustc_driver and libtest. extern crate test as _; #[cfg(test)] mod tests; #[macro_use] mod macros; // N.B., this module needs to be declared first so diagnostics are // registered before they are used. pub mod error_codes; #[macro_use] pub mod query; #[macro_use] pub mod arena; pub mod cfg; pub mod dep_graph; pub mod hir; pub mod ich; pub mod infer; pub mod lint; pub mod middle { pub mod borrowck; pub mod expr_use_visitor; pub mod cstore; pub mod dead; pub mod dependency_format; pub mod entry; pub mod exported_symbols; pub mod free_region; pub mod intrinsicck; pub mod lib_features; pub mod lang_items; pub mod liveness; pub mod mem_categorization; pub mod privacy; pub mod reachable; pub mod region; pub mod recursion_limit; pub mod resolve_lifetime; pub mod stability; pub mod weak_lang_items; } pub mod mir; pub mod session; pub mod traits; pub mod ty; pub mod util { pub mod captures; pub mod common; pub mod nodemap; pub mod profiling; pub mod bug; } // Allows macros to refer to this crate as `::rustc` extern crate self as rustc; // Build the diagnostics array at the end so that the metadata includes error use sites. __build_diagnostic_array! { librustc, DIAGNOSTICS }