compiler/rustc_macros/src/lib.rs - third_party/rust - Git at Google

 #![feature(allow_internal_unstable)]
 #![feature(if_let_guard)]
 #![feature(let_chains)]
 #![feature(never_type)]
 #![feature(proc_macro_diagnostic)]
 #![feature(proc_macro_span)]
 #![feature(proc_macro_tracked_env)]
 #![allow(rustc::default_hash_types)]
 #![allow(internal_features)]

 use synstructure::decl_derive;

 use proc_macro::TokenStream;

 mod current_version;
 mod diagnostics;
 mod extension;
 mod hash_stable;
 mod lift;
 mod query;
 mod serialize;
 mod symbols;
 mod type_foldable;
 mod type_visitable;

 // Reads the rust version (e.g. "1.75.0") from the CFG_RELEASE env var and
 // produces a `RustcVersion` literal containing that version (e.g.
 // `RustcVersion { major: 1, minor: 75, patch: 0 }`).
 #[proc_macro]
 pub fn current_rustc_version(input: TokenStream) -> TokenStream {
     current_version::current_version(input)
 }

 #[proc_macro]
 pub fn rustc_queries(input: TokenStream) -> TokenStream {
     query::rustc_queries(input)
 }

 #[proc_macro]
 pub fn symbols(input: TokenStream) -> TokenStream {
     symbols::symbols(input.into()).into()
 }

 /// Derive an extension trait for a given impl block. The trait name
 /// goes into the parenthesized args of the macro, for greppability.
 /// For example:
 /// ```
 /// use rustc_macros::extension;
 /// #[extension(pub trait Foo)]
 /// impl i32 { fn hello() {} }
 /// ```
 ///
 /// expands to:
 /// ```
 /// pub trait Foo { fn hello(); }
 /// impl Foo for i32 { fn hello() {} }
 /// ```
 #[proc_macro_attribute]
 pub fn extension(attr: TokenStream, input: TokenStream) -> TokenStream {
     extension::extension(attr, input)
 }

 decl_derive!([HashStable, attributes(stable_hasher)] => hash_stable::hash_stable_derive);
 decl_derive!(
     [HashStable_Generic, attributes(stable_hasher)] =>
     hash_stable::hash_stable_generic_derive
 );
 decl_derive!(
     [HashStable_NoContext] =>
     /// `HashStable` implementation that has no `HashStableContext` bound and
     /// which adds `where` bounds for `HashStable` based off of fields and not
     /// generics. This is suitable for use in crates like `rustc_type_ir`.
     hash_stable::hash_stable_no_context_derive
 );

 decl_derive!([Decodable_Generic] => serialize::decodable_generic_derive);
 decl_derive!([Encodable_Generic] => serialize::encodable_generic_derive);
 decl_derive!([Decodable] => serialize::decodable_derive);
 decl_derive!([Encodable] => serialize::encodable_derive);
 decl_derive!([TyDecodable] => serialize::type_decodable_derive);
 decl_derive!([TyEncodable] => serialize::type_encodable_derive);
 decl_derive!([MetadataDecodable] => serialize::meta_decodable_derive);
 decl_derive!([MetadataEncodable] => serialize::meta_encodable_derive);
 decl_derive!(
     [TypeFoldable, attributes(type_foldable)] =>
     /// Derives `TypeFoldable` for the annotated `struct` or `enum` (`union` is not supported).
     ///
     /// The fold will produce a value of the same struct or enum variant as the input, with
     /// each field respectively folded using the `TypeFoldable` implementation for its type.
     /// However, if a field of a struct or an enum variant is annotated with
     /// `#[type_foldable(identity)]` then that field will retain its incumbent value (and its
     /// type is not required to implement `TypeFoldable`).
     type_foldable::type_foldable_derive
 );
 decl_derive!(
     [TypeVisitable, attributes(type_visitable)] =>
     /// Derives `TypeVisitable` for the annotated `struct` or `enum` (`union` is not supported).
     ///
     /// Each field of the struct or enum variant will be visited in definition order, using the
     /// `TypeVisitable` implementation for its type. However, if a field of a struct or an enum
     /// variant is annotated with `#[type_visitable(ignore)]` then that field will not be
     /// visited (and its type is not required to implement `TypeVisitable`).
     type_visitable::type_visitable_derive
 );
 decl_derive!([Lift, attributes(lift)] => lift::lift_derive);
 decl_derive!(
     [Diagnostic, attributes(
         // struct attributes
         diag,
         help,
         note,
         warning,
         // field attributes
         skip_arg,
         primary_span,
         label,
         subdiagnostic,
         suggestion,
         suggestion_short,
         suggestion_hidden,
         suggestion_verbose)] => diagnostics::diagnostic_derive
 );
 decl_derive!(
     [LintDiagnostic, attributes(
         // struct attributes
         diag,
         help,
         note,
         warning,
         // field attributes
         skip_arg,
         primary_span,
         label,
         subdiagnostic,
         suggestion,
         suggestion_short,
         suggestion_hidden,
         suggestion_verbose)] => diagnostics::lint_diagnostic_derive
 );
 decl_derive!(
     [Subdiagnostic, attributes(
         // struct/variant attributes
         label,
         help,
         note,
         warning,
         subdiagnostic,
         suggestion,
         suggestion_short,
         suggestion_hidden,
         suggestion_verbose,
         multipart_suggestion,
         multipart_suggestion_short,
         multipart_suggestion_hidden,
         multipart_suggestion_verbose,
         // field attributes
         skip_arg,
         primary_span,
         suggestion_part,
         applicability)] => diagnostics::subdiagnostic_derive
 );
	#![feature(allow_internal_unstable)]
	#![feature(if_let_guard)]
	#![feature(let_chains)]
	#![feature(never_type)]
	#![feature(proc_macro_diagnostic)]
	#![feature(proc_macro_span)]
	#![feature(proc_macro_tracked_env)]
	#![allow(rustc::default_hash_types)]
	#![allow(internal_features)]

	use synstructure::decl_derive;

	use proc_macro::TokenStream;

	mod current_version;
	mod diagnostics;
	mod extension;
	mod hash_stable;
	mod lift;
	mod query;
	mod serialize;
	mod symbols;
	mod type_foldable;
	mod type_visitable;

	// Reads the rust version (e.g. "1.75.0") from the CFG_RELEASE env var and
	// produces a `RustcVersion` literal containing that version (e.g.
	// `RustcVersion { major: 1, minor: 75, patch: 0 }`).
	#[proc_macro]
	pub fn current_rustc_version(input: TokenStream) -> TokenStream {
	current_version::current_version(input)
	}

	#[proc_macro]
	pub fn rustc_queries(input: TokenStream) -> TokenStream {
	query::rustc_queries(input)
	}

	#[proc_macro]
	pub fn symbols(input: TokenStream) -> TokenStream {
	symbols::symbols(input.into()).into()
	}

	/// Derive an extension trait for a given impl block. The trait name
	/// goes into the parenthesized args of the macro, for greppability.
	/// For example:
	/// ```
	/// use rustc_macros::extension;
	/// #[extension(pub trait Foo)]
	/// impl i32 { fn hello() {} }
	/// ```
	///
	/// expands to:
	/// ```
	/// pub trait Foo { fn hello(); }
	/// impl Foo for i32 { fn hello() {} }
	/// ```
	#[proc_macro_attribute]
	pub fn extension(attr: TokenStream, input: TokenStream) -> TokenStream {
	extension::extension(attr, input)
	}

	decl_derive!([HashStable, attributes(stable_hasher)] => hash_stable::hash_stable_derive);
	decl_derive!(
	[HashStable_Generic, attributes(stable_hasher)] =>
	hash_stable::hash_stable_generic_derive
	);
	decl_derive!(
	[HashStable_NoContext] =>
	/// `HashStable` implementation that has no `HashStableContext` bound and
	/// which adds `where` bounds for `HashStable` based off of fields and not
	/// generics. This is suitable for use in crates like `rustc_type_ir`.
	hash_stable::hash_stable_no_context_derive
	);

	decl_derive!([Decodable_Generic] => serialize::decodable_generic_derive);
	decl_derive!([Encodable_Generic] => serialize::encodable_generic_derive);
	decl_derive!([Decodable] => serialize::decodable_derive);
	decl_derive!([Encodable] => serialize::encodable_derive);
	decl_derive!([TyDecodable] => serialize::type_decodable_derive);
	decl_derive!([TyEncodable] => serialize::type_encodable_derive);
	decl_derive!([MetadataDecodable] => serialize::meta_decodable_derive);
	decl_derive!([MetadataEncodable] => serialize::meta_encodable_derive);
	decl_derive!(
	[TypeFoldable, attributes(type_foldable)] =>
	/// Derives `TypeFoldable` for the annotated `struct` or `enum` (`union` is not supported).
	///
	/// The fold will produce a value of the same struct or enum variant as the input, with
	/// each field respectively folded using the `TypeFoldable` implementation for its type.
	/// However, if a field of a struct or an enum variant is annotated with
	/// `#[type_foldable(identity)]` then that field will retain its incumbent value (and its
	/// type is not required to implement `TypeFoldable`).
	type_foldable::type_foldable_derive
	);
	decl_derive!(
	[TypeVisitable, attributes(type_visitable)] =>
	/// Derives `TypeVisitable` for the annotated `struct` or `enum` (`union` is not supported).
	///
	/// Each field of the struct or enum variant will be visited in definition order, using the
	/// `TypeVisitable` implementation for its type. However, if a field of a struct or an enum
	/// variant is annotated with `#[type_visitable(ignore)]` then that field will not be
	/// visited (and its type is not required to implement `TypeVisitable`).
	type_visitable::type_visitable_derive
	);
	decl_derive!([Lift, attributes(lift)] => lift::lift_derive);
	decl_derive!(
	[Diagnostic, attributes(
	// struct attributes
	diag,
	help,
	note,
	warning,
	// field attributes
	skip_arg,
	primary_span,
	label,
	subdiagnostic,
	suggestion,
	suggestion_short,
	suggestion_hidden,
	suggestion_verbose)] => diagnostics::diagnostic_derive
	);
	decl_derive!(
	[LintDiagnostic, attributes(
	// struct attributes
	diag,
	help,
	note,
	warning,
	// field attributes
	skip_arg,
	primary_span,
	label,
	subdiagnostic,
	suggestion,
	suggestion_short,
	suggestion_hidden,
	suggestion_verbose)] => diagnostics::lint_diagnostic_derive
	);
	decl_derive!(
	[Subdiagnostic, attributes(
	// struct/variant attributes
	label,
	help,
	note,
	warning,
	subdiagnostic,
	suggestion,
	suggestion_short,
	suggestion_hidden,
	suggestion_verbose,
	multipart_suggestion,
	multipart_suggestion_short,
	multipart_suggestion_hidden,
	multipart_suggestion_verbose,
	// field attributes
	skip_arg,
	primary_span,
	suggestion_part,
	applicability)] => diagnostics::subdiagnostic_derive
	);