src/librustc/hir/check_attr.rs - third_party/rust - Git at Google

 //! This module implements some validity checks for attributes.
 //! In particular it verifies that `#[inline]` and `#[repr]` attributes are
 //! attached to items that actually support them and if there are
 //! conflicts between multiple such attributes attached to the same
 //! item.


 use crate::ty::TyCtxt;
 use crate::ty::query::Providers;

 use crate::hir;
 use crate::hir::def_id::DefId;
 use crate::hir::intravisit::{self, Visitor, NestedVisitorMap};
 use std::fmt::{self, Display};
 use syntax::symbol::sym;
 use syntax_pos::Span;

 #[derive(Copy, Clone, PartialEq)]
 pub(crate) enum Target {
     ExternCrate,
     Use,
     Static,
     Const,
     Fn,
     Closure,
     Mod,
     ForeignMod,
     GlobalAsm,
     Ty,
     Existential,
     Enum,
     Struct,
     Union,
     Trait,
     TraitAlias,
     Impl,
     Expression,
     Statement,
 }

 impl Display for Target {
     fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
         write!(f, "{}", match *self {
             Target::ExternCrate => "extern crate",
             Target::Use => "use",
             Target::Static => "static item",
             Target::Const => "constant item",
             Target::Fn => "function",
             Target::Closure => "closure",
             Target::Mod => "module",
             Target::ForeignMod => "foreign module",
             Target::GlobalAsm => "global asm",
             Target::Ty => "type alias",
             Target::Existential => "existential type",
             Target::Enum => "enum",
             Target::Struct => "struct",
             Target::Union => "union",
             Target::Trait => "trait",
             Target::TraitAlias => "trait alias",
             Target::Impl => "item",
             Target::Expression => "expression",
             Target::Statement => "statement",
         })
     }
 }

 impl Target {
     pub(crate) fn from_item(item: &hir::Item) -> Target {
         match item.node {
             hir::ItemKind::ExternCrate(..) => Target::ExternCrate,
             hir::ItemKind::Use(..) => Target::Use,
             hir::ItemKind::Static(..) => Target::Static,
             hir::ItemKind::Const(..) => Target::Const,
             hir::ItemKind::Fn(..) => Target::Fn,
             hir::ItemKind::Mod(..) => Target::Mod,
             hir::ItemKind::ForeignMod(..) => Target::ForeignMod,
             hir::ItemKind::GlobalAsm(..) => Target::GlobalAsm,
             hir::ItemKind::Ty(..) => Target::Ty,
             hir::ItemKind::Existential(..) => Target::Existential,
             hir::ItemKind::Enum(..) => Target::Enum,
             hir::ItemKind::Struct(..) => Target::Struct,
             hir::ItemKind::Union(..) => Target::Union,
             hir::ItemKind::Trait(..) => Target::Trait,
             hir::ItemKind::TraitAlias(..) => Target::TraitAlias,
             hir::ItemKind::Impl(..) => Target::Impl,
         }
     }
 }

 struct CheckAttrVisitor<'a, 'tcx: 'a> {
     tcx: TyCtxt<'a, 'tcx, 'tcx>,
 }

 impl<'a, 'tcx> CheckAttrVisitor<'a, 'tcx> {
     /// Checks any attribute.
     fn check_attributes(&self, item: &hir::Item, target: Target) {
         if target == Target::Fn || target == Target::Const {
             self.tcx.codegen_fn_attrs(self.tcx.hir().local_def_id_from_hir_id(item.hir_id));
         } else if let Some(a) = item.attrs.iter().find(|a| a.check_name(sym::target_feature)) {
             self.tcx.sess.struct_span_err(a.span, "attribute should be applied to a function")
                 .span_label(item.span, "not a function")
                 .emit();
         }

         for attr in &item.attrs {
             if attr.check_name(sym::inline) {
                 self.check_inline(attr, &item.span, target)
             } else if attr.check_name(sym::non_exhaustive) {
                 self.check_non_exhaustive(attr, item, target)
             } else if attr.check_name(sym::marker) {
                 self.check_marker(attr, item, target)
             }
         }

         self.check_repr(item, target);
         self.check_used(item, target);
     }

     /// Checks if an `#[inline]` is applied to a function or a closure.
     fn check_inline(&self, attr: &hir::Attribute, span: &Span, target: Target) {
         if target != Target::Fn && target != Target::Closure {
             struct_span_err!(self.tcx.sess,
                              attr.span,
                              E0518,
                              "attribute should be applied to function or closure")
                 .span_label(*span, "not a function or closure")
                 .emit();
         }
     }

     /// Checks if the `#[non_exhaustive]` attribute on an `item` is valid.
     fn check_non_exhaustive(&self, attr: &hir::Attribute, item: &hir::Item, target: Target) {
         match target {
             Target::Struct | Target::Enum => { /* Valid */ },
             _ => {
                 struct_span_err!(self.tcx.sess,
                                  attr.span,
                                  E0701,
                                  "attribute can only be applied to a struct or enum")
                     .span_label(item.span, "not a struct or enum")
                     .emit();
                 return;
             }
         }
     }

     /// Checks if the `#[marker]` attribute on an `item` is valid.
     fn check_marker(&self, attr: &hir::Attribute, item: &hir::Item, target: Target) {
         match target {
             Target::Trait => { /* Valid */ },
             _ => {
                 self.tcx.sess
                     .struct_span_err(attr.span, "attribute can only be applied to a trait")
                     .span_label(item.span, "not a trait")
                     .emit();
                 return;
             }
         }
     }

     /// Checks if the `#[repr]` attributes on `item` are valid.
     fn check_repr(&self, item: &hir::Item, target: Target) {
         // Extract the names of all repr hints, e.g., [foo, bar, align] for:
         // ```
         // #[repr(foo)]
         // #[repr(bar, align(8))]
         // ```
         let hints: Vec<_> = item.attrs
             .iter()
             .filter(|attr| attr.check_name(sym::repr))
             .filter_map(|attr| attr.meta_item_list())
             .flatten()
             .collect();

         let mut int_reprs = 0;
         let mut is_c = false;
         let mut is_simd = false;
         let mut is_transparent = false;

         for hint in &hints {
             let (article, allowed_targets) = match hint.name_or_empty() {
                 name @ sym::C | name @ sym::align => {
                     is_c |= name == sym::C;
                     match target {
                         Target::Struct | Target::Union | Target::Enum => continue,
                         _ => ("a", "struct, enum, or union"),
                     }
                 }
                 sym::packed => {
                     if target != Target::Struct &&
                             target != Target::Union {
                                 ("a", "struct or union")
                     } else {
                         continue
                     }
                 }
                 sym::simd => {
                     is_simd = true;
                     if target != Target::Struct {
                         ("a", "struct")
                     } else {
                         continue
                     }
                 }
                 sym::transparent => {
                     is_transparent = true;
                     match target {
                         Target::Struct | Target::Union | Target::Enum => continue,
                         _ => ("a", "struct, enum, or union"),
                     }
                 }
                 sym::i8  | sym::u8  | sym::i16 | sym::u16 |
                 sym::i32 | sym::u32 | sym::i64 | sym::u64 |
                 sym::isize | sym::usize => {
                     int_reprs += 1;
                     if target != Target::Enum {
                         ("an", "enum")
                     } else {
                         continue
                     }
                 }
                 _ => continue,
             };
             self.emit_repr_error(
                 hint.span(),
                 item.span,
                 &format!("attribute should be applied to {}", allowed_targets),
                 &format!("not {} {}", article, allowed_targets),
             )
         }

         // Just point at all repr hints if there are any incompatibilities.
         // This is not ideal, but tracking precisely which ones are at fault is a huge hassle.
         let hint_spans = hints.iter().map(|hint| hint.span());

         // Error on repr(transparent, <anything else>).
         if is_transparent && hints.len() > 1 {
             let hint_spans: Vec<_> = hint_spans.clone().collect();
             span_err!(self.tcx.sess, hint_spans, E0692,
                       "transparent {} cannot have other repr hints", target);
         }
         // Warn on repr(u8, u16), repr(C, simd), and c-like-enum-repr(C, u8)
         if (int_reprs > 1)
            || (is_simd && is_c)
            || (int_reprs == 1 && is_c && is_c_like_enum(item)) {
             let hint_spans: Vec<_> = hint_spans.collect();
             span_warn!(self.tcx.sess, hint_spans, E0566,
                        "conflicting representation hints");
         }
     }

     fn emit_repr_error(
         &self,
         hint_span: Span,
         label_span: Span,
         hint_message: &str,
         label_message: &str,
     ) {
         struct_span_err!(self.tcx.sess, hint_span, E0517, "{}", hint_message)
             .span_label(label_span, label_message)
             .emit();
     }

     fn check_stmt_attributes(&self, stmt: &hir::Stmt) {
         // When checking statements ignore expressions, they will be checked later
         if let hir::StmtKind::Local(ref l) = stmt.node {
             for attr in l.attrs.iter() {
                 if attr.check_name(sym::inline) {
                     self.check_inline(attr, &stmt.span, Target::Statement);
                 }
                 if attr.check_name(sym::repr) {
                     self.emit_repr_error(
                         attr.span,
                         stmt.span,
                         "attribute should not be applied to a statement",
                         "not a struct, enum, or union",
                     );
                 }
             }
         }
     }

     fn check_expr_attributes(&self, expr: &hir::Expr) {
         let target = match expr.node {
             hir::ExprKind::Closure(..) => Target::Closure,
             _ => Target::Expression,
         };
         for attr in expr.attrs.iter() {
             if attr.check_name(sym::inline) {
                 self.check_inline(attr, &expr.span, target);
             }
             if attr.check_name(sym::repr) {
                 self.emit_repr_error(
                     attr.span,
                     expr.span,
                     "attribute should not be applied to an expression",
                     "not defining a struct, enum, or union",
                 );
             }
         }
     }

     fn check_used(&self, item: &hir::Item, target: Target) {
         for attr in &item.attrs {
             if attr.check_name(sym::used) && target != Target::Static {
                 self.tcx.sess
                     .span_err(attr.span, "attribute must be applied to a `static` variable");
             }
         }
     }
 }

 impl<'a, 'tcx> Visitor<'tcx> for CheckAttrVisitor<'a, 'tcx> {
     fn nested_visit_map<'this>(&'this mut self) -> NestedVisitorMap<'this, 'tcx> {
         NestedVisitorMap::OnlyBodies(&self.tcx.hir())
     }

     fn visit_item(&mut self, item: &'tcx hir::Item) {
         let target = Target::from_item(item);
         self.check_attributes(item, target);
         intravisit::walk_item(self, item)
     }


     fn visit_stmt(&mut self, stmt: &'tcx hir::Stmt) {
         self.check_stmt_attributes(stmt);
         intravisit::walk_stmt(self, stmt)
     }

     fn visit_expr(&mut self, expr: &'tcx hir::Expr) {
         self.check_expr_attributes(expr);
         intravisit::walk_expr(self, expr)
     }
 }

 fn is_c_like_enum(item: &hir::Item) -> bool {
     if let hir::ItemKind::Enum(ref def, _) = item.node {
         for variant in &def.variants {
             match variant.node.data {
                 hir::VariantData::Unit(..) => { /* continue */ }
                 _ => { return false; }
             }
         }
         true
     } else {
         false
     }
 }

 fn check_mod_attrs<'tcx>(tcx: TyCtxt<'_, 'tcx, 'tcx>, module_def_id: DefId) {
     tcx.hir().visit_item_likes_in_module(
         module_def_id,
         &mut CheckAttrVisitor { tcx }.as_deep_visitor()
     );
 }

 pub(crate) fn provide(providers: &mut Providers<'_>) {
     *providers = Providers {
         check_mod_attrs,
         ..*providers
     };
 }
	//! This module implements some validity checks for attributes.
	//! In particular it verifies that `#[inline]` and `#[repr]` attributes are
	//! attached to items that actually support them and if there are
	//! conflicts between multiple such attributes attached to the same
	//! item.


	use crate::ty::TyCtxt;
	use crate::ty::query::Providers;

	use crate::hir;
	use crate::hir::def_id::DefId;
	use crate::hir::intravisit::{self, Visitor, NestedVisitorMap};
	use std::fmt::{self, Display};
	use syntax::symbol::sym;
	use syntax_pos::Span;

	#[derive(Copy, Clone, PartialEq)]
	pub(crate) enum Target {
	ExternCrate,
	Use,
	Static,
	Const,
	Fn,
	Closure,
	Mod,
	ForeignMod,
	GlobalAsm,
	Ty,
	Existential,
	Enum,
	Struct,
	Union,
	Trait,
	TraitAlias,
	Impl,
	Expression,
	Statement,
	}

	impl Display for Target {
	fn fmt(&self, f: &mut fmt::Formatter<'_>) -> fmt::Result {
	write!(f, "{}", match *self {
	Target::ExternCrate => "extern crate",
	Target::Use => "use",
	Target::Static => "static item",
	Target::Const => "constant item",
	Target::Fn => "function",
	Target::Closure => "closure",
	Target::Mod => "module",
	Target::ForeignMod => "foreign module",
	Target::GlobalAsm => "global asm",
	Target::Ty => "type alias",
	Target::Existential => "existential type",
	Target::Enum => "enum",
	Target::Struct => "struct",
	Target::Union => "union",
	Target::Trait => "trait",
	Target::TraitAlias => "trait alias",
	Target::Impl => "item",
	Target::Expression => "expression",
	Target::Statement => "statement",
	})
	}
	}

	impl Target {
	pub(crate) fn from_item(item: &hir::Item) -> Target {
	match item.node {
	hir::ItemKind::ExternCrate(..) => Target::ExternCrate,
	hir::ItemKind::Use(..) => Target::Use,
	hir::ItemKind::Static(..) => Target::Static,
	hir::ItemKind::Const(..) => Target::Const,
	hir::ItemKind::Fn(..) => Target::Fn,
	hir::ItemKind::Mod(..) => Target::Mod,
	hir::ItemKind::ForeignMod(..) => Target::ForeignMod,
	hir::ItemKind::GlobalAsm(..) => Target::GlobalAsm,
	hir::ItemKind::Ty(..) => Target::Ty,
	hir::ItemKind::Existential(..) => Target::Existential,
	hir::ItemKind::Enum(..) => Target::Enum,
	hir::ItemKind::Struct(..) => Target::Struct,
	hir::ItemKind::Union(..) => Target::Union,
	hir::ItemKind::Trait(..) => Target::Trait,
	hir::ItemKind::TraitAlias(..) => Target::TraitAlias,
	hir::ItemKind::Impl(..) => Target::Impl,
	}
	}
	}

	struct CheckAttrVisitor<'a, 'tcx: 'a> {
	tcx: TyCtxt<'a, 'tcx, 'tcx>,
	}

	impl<'a, 'tcx> CheckAttrVisitor<'a, 'tcx> {
	/// Checks any attribute.
	fn check_attributes(&self, item: &hir::Item, target: Target) {
	if target == Target::Fn \|\| target == Target::Const {
	self.tcx.codegen_fn_attrs(self.tcx.hir().local_def_id_from_hir_id(item.hir_id));
	} else if let Some(a) = item.attrs.iter().find(\|a\| a.check_name(sym::target_feature)) {
	self.tcx.sess.struct_span_err(a.span, "attribute should be applied to a function")
	.span_label(item.span, "not a function")
	.emit();
	}

	for attr in &item.attrs {
	if attr.check_name(sym::inline) {
	self.check_inline(attr, &item.span, target)
	} else if attr.check_name(sym::non_exhaustive) {
	self.check_non_exhaustive(attr, item, target)
	} else if attr.check_name(sym::marker) {
	self.check_marker(attr, item, target)
	}
	}

	self.check_repr(item, target);
	self.check_used(item, target);
	}

	/// Checks if an `#[inline]` is applied to a function or a closure.
	fn check_inline(&self, attr: &hir::Attribute, span: &Span, target: Target) {
	if target != Target::Fn && target != Target::Closure {
	struct_span_err!(self.tcx.sess,
	attr.span,
	E0518,
	"attribute should be applied to function or closure")
	.span_label(*span, "not a function or closure")
	.emit();
	}
	}

	/// Checks if the `#[non_exhaustive]` attribute on an `item` is valid.
	fn check_non_exhaustive(&self, attr: &hir::Attribute, item: &hir::Item, target: Target) {
	match target {
	Target::Struct \| Target::Enum => { /* Valid */ },
	_ => {
	struct_span_err!(self.tcx.sess,
	attr.span,
	E0701,
	"attribute can only be applied to a struct or enum")
	.span_label(item.span, "not a struct or enum")
	.emit();
	return;
	}
	}
	}

	/// Checks if the `#[marker]` attribute on an `item` is valid.
	fn check_marker(&self, attr: &hir::Attribute, item: &hir::Item, target: Target) {
	match target {
	Target::Trait => { /* Valid */ },
	_ => {
	self.tcx.sess
	.struct_span_err(attr.span, "attribute can only be applied to a trait")
	.span_label(item.span, "not a trait")
	.emit();
	return;
	}
	}
	}

	/// Checks if the `#[repr]` attributes on `item` are valid.
	fn check_repr(&self, item: &hir::Item, target: Target) {
	// Extract the names of all repr hints, e.g., [foo, bar, align] for:
	// ```
	// #[repr(foo)]
	// #[repr(bar, align(8))]
	// ```
	let hints: Vec<_> = item.attrs
	.iter()
	.filter(\|attr\| attr.check_name(sym::repr))
	.filter_map(\|attr\| attr.meta_item_list())
	.flatten()
	.collect();

	let mut int_reprs = 0;
	let mut is_c = false;
	let mut is_simd = false;
	let mut is_transparent = false;

	for hint in &hints {
	let (article, allowed_targets) = match hint.name_or_empty() {
	name @ sym::C \| name @ sym::align => {
	is_c \|= name == sym::C;
	match target {
	Target::Struct \| Target::Union \| Target::Enum => continue,
	_ => ("a", "struct, enum, or union"),
	}
	}
	sym::packed => {
	if target != Target::Struct &&
	target != Target::Union {
	("a", "struct or union")
	} else {
	continue
	}
	}
	sym::simd => {
	is_simd = true;
	if target != Target::Struct {
	("a", "struct")
	} else {
	continue
	}
	}
	sym::transparent => {
	is_transparent = true;
	match target {
	Target::Struct \| Target::Union \| Target::Enum => continue,
	_ => ("a", "struct, enum, or union"),
	}
	}
	sym::i8 \| sym::u8 \| sym::i16 \| sym::u16 \|
	sym::i32 \| sym::u32 \| sym::i64 \| sym::u64 \|
	sym::isize \| sym::usize => {
	int_reprs += 1;
	if target != Target::Enum {
	("an", "enum")
	} else {
	continue
	}
	}
	_ => continue,
	};
	self.emit_repr_error(
	hint.span(),
	item.span,
	&format!("attribute should be applied to {}", allowed_targets),
	&format!("not {} {}", article, allowed_targets),
	)
	}

	// Just point at all repr hints if there are any incompatibilities.
	// This is not ideal, but tracking precisely which ones are at fault is a huge hassle.
	let hint_spans = hints.iter().map(\|hint\| hint.span());

	// Error on repr(transparent, <anything else>).
	if is_transparent && hints.len() > 1 {
	let hint_spans: Vec<_> = hint_spans.clone().collect();
	span_err!(self.tcx.sess, hint_spans, E0692,
	"transparent {} cannot have other repr hints", target);
	}
	// Warn on repr(u8, u16), repr(C, simd), and c-like-enum-repr(C, u8)
	if (int_reprs > 1)
	\|\| (is_simd && is_c)
	\|\| (int_reprs == 1 && is_c && is_c_like_enum(item)) {
	let hint_spans: Vec<_> = hint_spans.collect();
	span_warn!(self.tcx.sess, hint_spans, E0566,
	"conflicting representation hints");
	}
	}

	fn emit_repr_error(
	&self,
	hint_span: Span,
	label_span: Span,
	hint_message: &str,
	label_message: &str,
	) {
	struct_span_err!(self.tcx.sess, hint_span, E0517, "{}", hint_message)
	.span_label(label_span, label_message)
	.emit();
	}

	fn check_stmt_attributes(&self, stmt: &hir::Stmt) {
	// When checking statements ignore expressions, they will be checked later
	if let hir::StmtKind::Local(ref l) = stmt.node {
	for attr in l.attrs.iter() {
	if attr.check_name(sym::inline) {
	self.check_inline(attr, &stmt.span, Target::Statement);
	}
	if attr.check_name(sym::repr) {
	self.emit_repr_error(
	attr.span,
	stmt.span,
	"attribute should not be applied to a statement",
	"not a struct, enum, or union",
	);
	}
	}
	}
	}

	fn check_expr_attributes(&self, expr: &hir::Expr) {
	let target = match expr.node {
	hir::ExprKind::Closure(..) => Target::Closure,
	_ => Target::Expression,
	};
	for attr in expr.attrs.iter() {
	if attr.check_name(sym::inline) {
	self.check_inline(attr, &expr.span, target);
	}
	if attr.check_name(sym::repr) {
	self.emit_repr_error(
	attr.span,
	expr.span,
	"attribute should not be applied to an expression",
	"not defining a struct, enum, or union",
	);
	}
	}
	}

	fn check_used(&self, item: &hir::Item, target: Target) {
	for attr in &item.attrs {
	if attr.check_name(sym::used) && target != Target::Static {
	self.tcx.sess
	.span_err(attr.span, "attribute must be applied to a `static` variable");
	}
	}
	}
	}

	impl<'a, 'tcx> Visitor<'tcx> for CheckAttrVisitor<'a, 'tcx> {
	fn nested_visit_map<'this>(&'this mut self) -> NestedVisitorMap<'this, 'tcx> {
	NestedVisitorMap::OnlyBodies(&self.tcx.hir())
	}

	fn visit_item(&mut self, item: &'tcx hir::Item) {
	let target = Target::from_item(item);
	self.check_attributes(item, target);
	intravisit::walk_item(self, item)
	}


	fn visit_stmt(&mut self, stmt: &'tcx hir::Stmt) {
	self.check_stmt_attributes(stmt);
	intravisit::walk_stmt(self, stmt)
	}

	fn visit_expr(&mut self, expr: &'tcx hir::Expr) {
	self.check_expr_attributes(expr);
	intravisit::walk_expr(self, expr)
	}
	}

	fn is_c_like_enum(item: &hir::Item) -> bool {
	if let hir::ItemKind::Enum(ref def, _) = item.node {
	for variant in &def.variants {
	match variant.node.data {
	hir::VariantData::Unit(..) => { /* continue */ }
	_ => { return false; }
	}
	}
	true
	} else {
	false
	}
	}

	fn check_mod_attrs<'tcx>(tcx: TyCtxt<'_, 'tcx, 'tcx>, module_def_id: DefId) {
	tcx.hir().visit_item_likes_in_module(
	module_def_id,
	&mut CheckAttrVisitor { tcx }.as_deep_visitor()
	);
	}

	pub(crate) fn provide(providers: &mut Providers<'_>) {
	*providers = Providers {
	check_mod_attrs,
	..*providers
	};
	}