crates/hir-def/src/visibility.rs - third_party/github.com/rust-lang/rust-analyzer - Git at Google

 //! Defines hir-level representation of visibility (e.g. `pub` and `pub(crate)`).

 use std::iter;

 use intern::Interned;
 use la_arena::ArenaMap;
 use span::SyntaxContextId;
 use syntax::ast;
 use triomphe::Arc;

 use crate::{
     db::DefDatabase,
     nameres::DefMap,
     path::{ModPath, PathKind},
     resolver::HasResolver,
     ConstId, FunctionId, HasModule, LocalFieldId, LocalModuleId, ModuleId, VariantId,
 };

 /// Visibility of an item, not yet resolved.
 #[derive(Debug, Clone, PartialEq, Eq)]
 pub enum RawVisibility {
     /// `pub(in module)`, `pub(crate)` or `pub(super)`. Also private, which is
     /// equivalent to `pub(self)`.
     Module(Interned<ModPath>, VisibilityExplicitness),
     /// `pub`.
     Public,
 }

 impl RawVisibility {
     pub(crate) fn private() -> RawVisibility {
         RawVisibility::Module(
             Interned::new(ModPath::from_kind(PathKind::SELF)),
             VisibilityExplicitness::Implicit,
         )
     }

     pub(crate) fn from_ast(
         db: &dyn DefDatabase,
         node: Option<ast::Visibility>,
         span_for_range: &mut dyn FnMut(::tt::TextRange) -> SyntaxContextId,
     ) -> RawVisibility {
         let node = match node {
             None => return RawVisibility::private(),
             Some(node) => node,
         };
         Self::from_ast_with_span_map(db, node, span_for_range)
     }

     fn from_ast_with_span_map(
         db: &dyn DefDatabase,
         node: ast::Visibility,
         span_for_range: &mut dyn FnMut(::tt::TextRange) -> SyntaxContextId,
     ) -> RawVisibility {
         let path = match node.kind() {
             ast::VisibilityKind::In(path) => {
                 let path = ModPath::from_src(db.upcast(), path, span_for_range);
                 match path {
                     None => return RawVisibility::private(),
                     Some(path) => path,
                 }
             }
             ast::VisibilityKind::PubCrate => ModPath::from_kind(PathKind::Crate),
             ast::VisibilityKind::PubSuper => ModPath::from_kind(PathKind::Super(1)),
             ast::VisibilityKind::PubSelf => ModPath::from_kind(PathKind::SELF),
             ast::VisibilityKind::Pub => return RawVisibility::Public,
         };
         RawVisibility::Module(Interned::new(path), VisibilityExplicitness::Explicit)
     }

     pub fn resolve(
         &self,
         db: &dyn DefDatabase,
         resolver: &crate::resolver::Resolver,
     ) -> Visibility {
         // we fall back to public visibility (i.e. fail open) if the path can't be resolved
         resolver.resolve_visibility(db, self).unwrap_or(Visibility::Public)
     }
 }

 /// Visibility of an item, with the path resolved.
 #[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)]
 pub enum Visibility {
     /// Visibility is restricted to a certain module.
     Module(ModuleId, VisibilityExplicitness),
     /// Visibility is unrestricted.
     Public,
 }

 impl Visibility {
     pub(crate) fn is_visible_from_other_crate(self) -> bool {
         matches!(self, Visibility::Public)
     }

     #[tracing::instrument(skip_all)]
     pub fn is_visible_from(self, db: &dyn DefDatabase, from_module: ModuleId) -> bool {
         let to_module = match self {
             Visibility::Module(m, _) => m,
             Visibility::Public => return true,
         };
         // if they're not in the same crate, it can't be visible
         if from_module.krate != to_module.krate {
             return false;
         }
         let def_map = from_module.def_map(db);
         Self::is_visible_from_def_map_(db, &def_map, to_module, from_module.local_id)
     }

     pub(crate) fn is_visible_from_def_map(
         self,
         db: &dyn DefDatabase,
         def_map: &DefMap,
         from_module: LocalModuleId,
     ) -> bool {
         let to_module = match self {
             Visibility::Module(m, _) => m,
             Visibility::Public => return true,
         };
         // if they're not in the same crate, it can't be visible
         if def_map.krate() != to_module.krate {
             return false;
         }
         Self::is_visible_from_def_map_(db, def_map, to_module, from_module)
     }

     fn is_visible_from_def_map_(
         db: &dyn DefDatabase,
         def_map: &DefMap,
         mut to_module: ModuleId,
         mut from_module: LocalModuleId,
     ) -> bool {
         debug_assert_eq!(to_module.krate, def_map.krate());
         // `to_module` might be the root module of a block expression. Those have the same
         // visibility as the containing module (even though no items are directly nameable from
         // there, getting this right is important for method resolution).
         // In that case, we adjust the visibility of `to_module` to point to the containing module.

         // Additional complication: `to_module` might be in `from_module`'s `DefMap`, which we're
         // currently computing, so we must not call the `def_map` query for it.
         let def_map_block = def_map.block_id();
         loop {
             match (to_module.block, def_map_block) {
                 // to_module is not a block, so there is no parent def map to use
                 (None, _) => (),
                 (Some(a), Some(b)) if a == b => {
                     cov_mark::hit!(is_visible_from_same_block_def_map);
                     if let Some(parent) = def_map.parent() {
                         to_module = parent;
                     }
                 }
                 _ => {
                     if let Some(parent) = to_module.def_map(db).parent() {
                         to_module = parent;
                         continue;
                     }
                 }
             }
             break;
         }

         // from_module needs to be a descendant of to_module
         let mut def_map = def_map;
         let mut parent_arc;
         loop {
             if def_map.module_id(from_module) == to_module {
                 return true;
             }
             match def_map[from_module].parent {
                 Some(parent) => from_module = parent,
                 None => {
                     match def_map.parent() {
                         Some(module) => {
                             parent_arc = module.def_map(db);
                             def_map = &*parent_arc;
                             from_module = module.local_id;
                         }
                         // Reached the root module, nothing left to check.
                         None => return false,
                     }
                 }
             }
         }
     }

     /// Returns the most permissive visibility of `self` and `other`.
     ///
     /// If there is no subset relation between `self` and `other`, returns `None` (ie. they're only
     /// visible in unrelated modules).
     pub(crate) fn max(self, other: Visibility, def_map: &DefMap) -> Option<Visibility> {
         match (self, other) {
             (_, Visibility::Public) | (Visibility::Public, _) => Some(Visibility::Public),
             (Visibility::Module(mod_a, expl_a), Visibility::Module(mod_b, expl_b)) => {
                 if mod_a.krate != mod_b.krate {
                     return None;
                 }

                 let mut a_ancestors =
                     iter::successors(Some(mod_a.local_id), |&m| def_map[m].parent);
                 let mut b_ancestors =
                     iter::successors(Some(mod_b.local_id), |&m| def_map[m].parent);

                 if a_ancestors.any(|m| m == mod_b.local_id) {
                     // B is above A
                     return Some(Visibility::Module(mod_b, expl_b));
                 }

                 if b_ancestors.any(|m| m == mod_a.local_id) {
                     // A is above B
                     return Some(Visibility::Module(mod_a, expl_a));
                 }

                 None
             }
         }
     }
 }

 /// Whether the item was imported through an explicit `pub(crate) use` or just a `use` without
 /// visibility.
 #[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)]
 pub enum VisibilityExplicitness {
     Explicit,
     Implicit,
 }

 impl VisibilityExplicitness {
     pub fn is_explicit(&self) -> bool {
         matches!(self, Self::Explicit)
     }
 }

 /// Resolve visibility of all specific fields of a struct or union variant.
 pub(crate) fn field_visibilities_query(
     db: &dyn DefDatabase,
     variant_id: VariantId,
 ) -> Arc<ArenaMap<LocalFieldId, Visibility>> {
     let var_data = variant_id.variant_data(db);
     let resolver = variant_id.module(db).resolver(db);
     let mut res = ArenaMap::default();
     for (field_id, field_data) in var_data.fields().iter() {
         res.insert(field_id, field_data.visibility.resolve(db, &resolver));
     }
     Arc::new(res)
 }

 /// Resolve visibility of a function.
 pub(crate) fn function_visibility_query(db: &dyn DefDatabase, def: FunctionId) -> Visibility {
     let resolver = def.resolver(db);
     db.function_data(def).visibility.resolve(db, &resolver)
 }

 /// Resolve visibility of a const.
 pub(crate) fn const_visibility_query(db: &dyn DefDatabase, def: ConstId) -> Visibility {
     let resolver = def.resolver(db);
     db.const_data(def).visibility.resolve(db, &resolver)
 }
	//! Defines hir-level representation of visibility (e.g. `pub` and `pub(crate)`).

	use std::iter;

	use intern::Interned;
	use la_arena::ArenaMap;
	use span::SyntaxContextId;
	use syntax::ast;
	use triomphe::Arc;

	use crate::{
	db::DefDatabase,
	nameres::DefMap,
	path::{ModPath, PathKind},
	resolver::HasResolver,
	ConstId, FunctionId, HasModule, LocalFieldId, LocalModuleId, ModuleId, VariantId,
	};

	/// Visibility of an item, not yet resolved.
	#[derive(Debug, Clone, PartialEq, Eq)]
	pub enum RawVisibility {
	/// `pub(in module)`, `pub(crate)` or `pub(super)`. Also private, which is
	/// equivalent to `pub(self)`.
	Module(Interned<ModPath>, VisibilityExplicitness),
	/// `pub`.
	Public,
	}

	impl RawVisibility {
	pub(crate) fn private() -> RawVisibility {
	RawVisibility::Module(
	Interned::new(ModPath::from_kind(PathKind::SELF)),
	VisibilityExplicitness::Implicit,
	)
	}

	pub(crate) fn from_ast(
	db: &dyn DefDatabase,
	node: Option<ast::Visibility>,
	span_for_range: &mut dyn FnMut(::tt::TextRange) -> SyntaxContextId,
	) -> RawVisibility {
	let node = match node {
	None => return RawVisibility::private(),
	Some(node) => node,
	};
	Self::from_ast_with_span_map(db, node, span_for_range)
	}

	fn from_ast_with_span_map(
	db: &dyn DefDatabase,
	node: ast::Visibility,
	span_for_range: &mut dyn FnMut(::tt::TextRange) -> SyntaxContextId,
	) -> RawVisibility {
	let path = match node.kind() {
	ast::VisibilityKind::In(path) => {
	let path = ModPath::from_src(db.upcast(), path, span_for_range);
	match path {
	None => return RawVisibility::private(),
	Some(path) => path,
	}
	}
	ast::VisibilityKind::PubCrate => ModPath::from_kind(PathKind::Crate),
	ast::VisibilityKind::PubSuper => ModPath::from_kind(PathKind::Super(1)),
	ast::VisibilityKind::PubSelf => ModPath::from_kind(PathKind::SELF),
	ast::VisibilityKind::Pub => return RawVisibility::Public,
	};
	RawVisibility::Module(Interned::new(path), VisibilityExplicitness::Explicit)
	}

	pub fn resolve(
	&self,
	db: &dyn DefDatabase,
	resolver: &crate::resolver::Resolver,
	) -> Visibility {
	// we fall back to public visibility (i.e. fail open) if the path can't be resolved
	resolver.resolve_visibility(db, self).unwrap_or(Visibility::Public)
	}
	}

	/// Visibility of an item, with the path resolved.
	#[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)]
	pub enum Visibility {
	/// Visibility is restricted to a certain module.
	Module(ModuleId, VisibilityExplicitness),
	/// Visibility is unrestricted.
	Public,
	}

	impl Visibility {
	pub(crate) fn is_visible_from_other_crate(self) -> bool {
	matches!(self, Visibility::Public)
	}

	#[tracing::instrument(skip_all)]
	pub fn is_visible_from(self, db: &dyn DefDatabase, from_module: ModuleId) -> bool {
	let to_module = match self {
	Visibility::Module(m, _) => m,
	Visibility::Public => return true,
	};
	// if they're not in the same crate, it can't be visible
	if from_module.krate != to_module.krate {
	return false;
	}
	let def_map = from_module.def_map(db);
	Self::is_visible_from_def_map_(db, &def_map, to_module, from_module.local_id)
	}

	pub(crate) fn is_visible_from_def_map(
	self,
	db: &dyn DefDatabase,
	def_map: &DefMap,
	from_module: LocalModuleId,
	) -> bool {
	let to_module = match self {
	Visibility::Module(m, _) => m,
	Visibility::Public => return true,
	};
	// if they're not in the same crate, it can't be visible
	if def_map.krate() != to_module.krate {
	return false;
	}
	Self::is_visible_from_def_map_(db, def_map, to_module, from_module)
	}

	fn is_visible_from_def_map_(
	db: &dyn DefDatabase,
	def_map: &DefMap,
	mut to_module: ModuleId,
	mut from_module: LocalModuleId,
	) -> bool {
	debug_assert_eq!(to_module.krate, def_map.krate());
	// `to_module` might be the root module of a block expression. Those have the same
	// visibility as the containing module (even though no items are directly nameable from
	// there, getting this right is important for method resolution).
	// In that case, we adjust the visibility of `to_module` to point to the containing module.

	// Additional complication: `to_module` might be in `from_module`'s `DefMap`, which we're
	// currently computing, so we must not call the `def_map` query for it.
	let def_map_block = def_map.block_id();
	loop {
	match (to_module.block, def_map_block) {
	// to_module is not a block, so there is no parent def map to use
	(None, _) => (),
	(Some(a), Some(b)) if a == b => {
	cov_mark::hit!(is_visible_from_same_block_def_map);
	if let Some(parent) = def_map.parent() {
	to_module = parent;
	}
	}
	_ => {
	if let Some(parent) = to_module.def_map(db).parent() {
	to_module = parent;
	continue;
	}
	}
	}
	break;
	}

	// from_module needs to be a descendant of to_module
	let mut def_map = def_map;
	let mut parent_arc;
	loop {
	if def_map.module_id(from_module) == to_module {
	return true;
	}
	match def_map[from_module].parent {
	Some(parent) => from_module = parent,
	None => {
	match def_map.parent() {
	Some(module) => {
	parent_arc = module.def_map(db);
	def_map = &*parent_arc;
	from_module = module.local_id;
	}
	// Reached the root module, nothing left to check.
	None => return false,
	}
	}
	}
	}
	}

	/// Returns the most permissive visibility of `self` and `other`.
	///
	/// If there is no subset relation between `self` and `other`, returns `None` (ie. they're only
	/// visible in unrelated modules).
	pub(crate) fn max(self, other: Visibility, def_map: &DefMap) -> Option<Visibility> {
	match (self, other) {
	(_, Visibility::Public) \| (Visibility::Public, _) => Some(Visibility::Public),
	(Visibility::Module(mod_a, expl_a), Visibility::Module(mod_b, expl_b)) => {
	if mod_a.krate != mod_b.krate {
	return None;
	}

	let mut a_ancestors =
	iter::successors(Some(mod_a.local_id), \|&m\| def_map[m].parent);
	let mut b_ancestors =
	iter::successors(Some(mod_b.local_id), \|&m\| def_map[m].parent);

	if a_ancestors.any(\|m\| m == mod_b.local_id) {
	// B is above A
	return Some(Visibility::Module(mod_b, expl_b));
	}

	if b_ancestors.any(\|m\| m == mod_a.local_id) {
	// A is above B
	return Some(Visibility::Module(mod_a, expl_a));
	}

	None
	}
	}
	}
	}

	/// Whether the item was imported through an explicit `pub(crate) use` or just a `use` without
	/// visibility.
	#[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)]
	pub enum VisibilityExplicitness {
	Explicit,
	Implicit,
	}

	impl VisibilityExplicitness {
	pub fn is_explicit(&self) -> bool {
	matches!(self, Self::Explicit)
	}
	}

	/// Resolve visibility of all specific fields of a struct or union variant.
	pub(crate) fn field_visibilities_query(
	db: &dyn DefDatabase,
	variant_id: VariantId,
	) -> Arc<ArenaMap<LocalFieldId, Visibility>> {
	let var_data = variant_id.variant_data(db);
	let resolver = variant_id.module(db).resolver(db);
	let mut res = ArenaMap::default();
	for (field_id, field_data) in var_data.fields().iter() {
	res.insert(field_id, field_data.visibility.resolve(db, &resolver));
	}
	Arc::new(res)
	}

	/// Resolve visibility of a function.
	pub(crate) fn function_visibility_query(db: &dyn DefDatabase, def: FunctionId) -> Visibility {
	let resolver = def.resolver(db);
	db.function_data(def).visibility.resolve(db, &resolver)
	}

	/// Resolve visibility of a const.
	pub(crate) fn const_visibility_query(db: &dyn DefDatabase, def: ConstId) -> Visibility {
	let resolver = def.resolver(db);
	db.const_data(def).visibility.resolve(db, &resolver)
	}