rust/crates/ra_hir/src/code_model.rs

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use std::sync::Arc;
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use ra_db::{CrateId, SourceRootId, Edition, FileId};
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use ra_syntax::{ast::{self, NameOwner, TypeAscriptionOwner}, TreeArc};
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use crate::{
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Name, AsName, AstId, Ty, HirFileId, Either, KnownName,
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HirDatabase, DefDatabase, AstDatabase,
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type_ref::TypeRef,
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nameres::{ModuleScope, Namespace, ImportId, CrateModuleId},
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expr::{Body, BodySourceMap, validation::ExprValidator},
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ty::{TraitRef, InferenceResult, primitive::{IntTy, FloatTy, Signedness, IntBitness, FloatBitness}},
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adt::{EnumVariantId, StructFieldId, VariantDef},
generics::HasGenericParams,
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ids::{FunctionId, StructId, EnumId, AstItemDef, ConstId, StaticId, TraitId, TypeAliasId, MacroDefId},
impl_block::ImplBlock,
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resolve::Resolver,
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diagnostics::{DiagnosticSink},
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traits::{TraitItem, TraitData},
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type_ref::Mutability,
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};
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/// hir::Crate describes a single crate. It's the main interface with which
/// a crate's dependencies interact. Mostly, it should be just a proxy for the
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/// root module.
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
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pub struct Crate {
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pub(crate) crate_id: CrateId,
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}
#[derive(Debug)]
pub struct CrateDependency {
pub krate: Crate,
pub name: Name,
}
impl Crate {
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pub fn crate_id(self) -> CrateId {
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self.crate_id
}
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pub fn dependencies(self, db: &impl DefDatabase) -> Vec<CrateDependency> {
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db.crate_graph()
.dependencies(self.crate_id)
.map(|dep| {
let krate = Crate { crate_id: dep.crate_id() };
let name = dep.as_name();
CrateDependency { krate, name }
})
.collect()
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}
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pub fn root_module(self, db: &impl DefDatabase) -> Option<Module> {
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let module_id = db.crate_def_map(self).root();
let module = Module { krate: self, module_id };
Some(module)
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}
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pub fn edition(self, db: &impl DefDatabase) -> Edition {
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let crate_graph = db.crate_graph();
crate_graph.edition(self.crate_id)
}
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// FIXME: should this be in source_binder?
pub fn source_root_crates(db: &impl DefDatabase, source_root: SourceRootId) -> Vec<Crate> {
let crate_ids = db.source_root_crates(source_root);
crate_ids.iter().map(|&crate_id| Crate { crate_id }).collect()
}
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}
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#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
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pub struct Module {
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pub(crate) krate: Crate,
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pub(crate) module_id: CrateModuleId,
}
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#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
pub enum BuiltinType {
Char,
Bool,
Str,
Int(IntTy),
Float(FloatTy),
}
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impl BuiltinType {
#[rustfmt::skip]
pub(crate) const ALL: &'static [(KnownName, BuiltinType)] = &[
(KnownName::Char, BuiltinType::Char),
(KnownName::Bool, BuiltinType::Bool),
(KnownName::Str, BuiltinType::Str),
(KnownName::Isize, BuiltinType::Int(IntTy { signedness: Signedness::Signed, bitness: IntBitness::Xsize })),
(KnownName::I8, BuiltinType::Int(IntTy { signedness: Signedness::Signed, bitness: IntBitness::X8 })),
(KnownName::I16, BuiltinType::Int(IntTy { signedness: Signedness::Signed, bitness: IntBitness::X16 })),
(KnownName::I32, BuiltinType::Int(IntTy { signedness: Signedness::Signed, bitness: IntBitness::X32 })),
(KnownName::I64, BuiltinType::Int(IntTy { signedness: Signedness::Signed, bitness: IntBitness::X64 })),
(KnownName::I128, BuiltinType::Int(IntTy { signedness: Signedness::Signed, bitness: IntBitness::X128 })),
(KnownName::Usize, BuiltinType::Int(IntTy { signedness: Signedness::Unsigned, bitness: IntBitness::Xsize })),
(KnownName::U8, BuiltinType::Int(IntTy { signedness: Signedness::Unsigned, bitness: IntBitness::X8 })),
(KnownName::U16, BuiltinType::Int(IntTy { signedness: Signedness::Unsigned, bitness: IntBitness::X16 })),
(KnownName::U32, BuiltinType::Int(IntTy { signedness: Signedness::Unsigned, bitness: IntBitness::X32 })),
(KnownName::U64, BuiltinType::Int(IntTy { signedness: Signedness::Unsigned, bitness: IntBitness::X64 })),
(KnownName::U128, BuiltinType::Int(IntTy { signedness: Signedness::Unsigned, bitness: IntBitness::X128 })),
(KnownName::F32, BuiltinType::Float(FloatTy { bitness: FloatBitness::X32 })),
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(KnownName::F64, BuiltinType::Float(FloatTy { bitness: FloatBitness::X64 })),
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];
}
/// The defs which can be visible in the module.
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#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
pub enum ModuleDef {
Module(Module),
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Function(Function),
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Struct(Struct),
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Union(Union),
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Enum(Enum),
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// Can't be directly declared, but can be imported.
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EnumVariant(EnumVariant),
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Const(Const),
Static(Static),
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Trait(Trait),
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TypeAlias(TypeAlias),
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BuiltinType(BuiltinType),
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}
impl_froms!(
ModuleDef: Module,
Function,
Struct,
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Union,
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Enum,
EnumVariant,
Const,
Static,
Trait,
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TypeAlias,
BuiltinType
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);
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pub enum ModuleSource {
SourceFile(TreeArc<ast::SourceFile>),
Module(TreeArc<ast::Module>),
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}
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impl ModuleSource {
pub(crate) fn new(
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db: &(impl DefDatabase + AstDatabase),
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file_id: Option<FileId>,
decl_id: Option<AstId<ast::Module>>,
) -> ModuleSource {
match (file_id, decl_id) {
(Some(file_id), _) => {
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let source_file = db.parse(file_id).tree;
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ModuleSource::SourceFile(source_file)
}
(None, Some(item_id)) => {
let module = item_id.to_node(db);
assert!(module.item_list().is_some(), "expected inline module");
ModuleSource::Module(module.to_owned())
}
(None, None) => panic!(),
}
}
}
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impl Module {
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/// Name of this module.
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pub fn name(self, db: &impl DefDatabase) -> Option<Name> {
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let def_map = db.crate_def_map(self.krate);
let parent = def_map[self.module_id].parent?;
def_map[parent].children.iter().find_map(|(name, module_id)| {
if *module_id == self.module_id {
Some(name.clone())
} else {
None
}
})
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}
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/// Returns a node which defines this module. That is, a file or a `mod foo {}` with items.
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pub fn definition_source(
self,
db: &(impl DefDatabase + AstDatabase),
) -> (HirFileId, ModuleSource) {
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let def_map = db.crate_def_map(self.krate);
let decl_id = def_map[self.module_id].declaration;
let file_id = def_map[self.module_id].definition;
let module_source = ModuleSource::new(db, file_id, decl_id);
let file_id = file_id.map(HirFileId::from).unwrap_or_else(|| decl_id.unwrap().file_id());
(file_id, module_source)
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}
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/// Returns a node which declares this module, either a `mod foo;` or a `mod foo {}`.
/// `None` for the crate root.
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pub fn declaration_source(
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self,
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db: &(impl DefDatabase + AstDatabase),
) -> Option<(HirFileId, TreeArc<ast::Module>)> {
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let def_map = db.crate_def_map(self.krate);
let decl = def_map[self.module_id].declaration?;
let ast = decl.to_node(db);
Some((decl.file_id(), ast))
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}
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/// Returns the syntax of the last path segment corresponding to this import
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pub fn import_source(
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self,
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db: &impl HirDatabase,
import: ImportId,
) -> Either<TreeArc<ast::UseTree>, TreeArc<ast::ExternCrateItem>> {
let (file_id, source) = self.definition_source(db);
let (_, source_map) = db.raw_items_with_source_map(file_id);
source_map.get(&source, import)
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}
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/// Returns the crate this module is part of.
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pub fn krate(self, _db: &impl DefDatabase) -> Option<Crate> {
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Some(self.krate)
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}
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/// Topmost parent of this module. Every module has a `crate_root`, but some
/// might be missing `krate`. This can happen if a module's file is not included
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/// in the module tree of any target in `Cargo.toml`.
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pub fn crate_root(self, db: &impl DefDatabase) -> Module {
let def_map = db.crate_def_map(self.krate);
self.with_module_id(def_map.root())
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}
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/// Finds a child module with the specified name.
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pub fn child(self, db: &impl HirDatabase, name: &Name) -> Option<Module> {
let def_map = db.crate_def_map(self.krate);
let child_id = def_map[self.module_id].children.get(name)?;
Some(self.with_module_id(*child_id))
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}
/// Iterates over all child modules.
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pub fn children(self, db: &impl DefDatabase) -> impl Iterator<Item = Module> {
let def_map = db.crate_def_map(self.krate);
let children = def_map[self.module_id]
.children
.iter()
.map(|(_, module_id)| self.with_module_id(*module_id))
.collect::<Vec<_>>();
children.into_iter()
}
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/// Finds a parent module.
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pub fn parent(self, db: &impl DefDatabase) -> Option<Module> {
let def_map = db.crate_def_map(self.krate);
let parent_id = def_map[self.module_id].parent?;
Some(self.with_module_id(parent_id))
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}
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pub fn path_to_root(self, db: &impl HirDatabase) -> Vec<Module> {
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let mut res = vec![self.clone()];
let mut curr = self.clone();
while let Some(next) = curr.parent(db) {
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res.push(next.clone());
curr = next
}
res
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}
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/// Returns a `ModuleScope`: a set of items, visible in this module.
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pub fn scope(self, db: &impl HirDatabase) -> ModuleScope {
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db.crate_def_map(self.krate)[self.module_id].scope.clone()
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}
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pub fn diagnostics(self, db: &impl HirDatabase, sink: &mut DiagnosticSink) {
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db.crate_def_map(self.krate).add_diagnostics(db, self.module_id, sink);
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for decl in self.declarations(db) {
match decl {
crate::ModuleDef::Function(f) => f.diagnostics(db, sink),
crate::ModuleDef::Module(f) => f.diagnostics(db, sink),
_ => (),
}
}
for impl_block in self.impl_blocks(db) {
for item in impl_block.items(db) {
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if let crate::ImplItem::Method(f) = item {
f.diagnostics(db, sink);
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}
}
}
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}
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pub(crate) fn resolver(self, db: &impl DefDatabase) -> Resolver {
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let def_map = db.crate_def_map(self.krate);
Resolver::default().push_module_scope(def_map, self.module_id)
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}
pub fn declarations(self, db: &impl DefDatabase) -> Vec<ModuleDef> {
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let def_map = db.crate_def_map(self.krate);
def_map[self.module_id]
.scope
.entries()
.filter_map(|(_name, res)| if res.import.is_none() { Some(res.def) } else { None })
.flat_map(|per_ns| {
per_ns.take_types().into_iter().chain(per_ns.take_values().into_iter())
})
.collect()
}
pub fn impl_blocks(self, db: &impl HirDatabase) -> Vec<ImplBlock> {
let module_impl_blocks = db.impls_in_module(self);
module_impl_blocks
.impls
.iter()
.map(|(impl_id, _)| ImplBlock::from_id(self, impl_id))
.collect()
}
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fn with_module_id(&self, module_id: CrateModuleId) -> Module {
Module { module_id, krate: self.krate }
}
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}
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#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
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pub struct StructField {
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pub(crate) parent: VariantDef,
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pub(crate) id: StructFieldId,
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}
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#[derive(Debug)]
pub enum FieldSource {
Named(TreeArc<ast::NamedFieldDef>),
Pos(TreeArc<ast::PosFieldDef>),
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}
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impl StructField {
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pub fn name(&self, db: &impl HirDatabase) -> Name {
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self.parent.variant_data(db).fields().unwrap()[self.id].name.clone()
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}
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pub fn source(&self, db: &(impl DefDatabase + AstDatabase)) -> (HirFileId, FieldSource) {
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self.source_impl(db)
}
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pub fn ty(&self, db: &impl HirDatabase) -> Ty {
db.type_for_field(*self)
}
pub fn parent_def(&self, _db: &impl HirDatabase) -> VariantDef {
self.parent
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}
}
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#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
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pub struct Struct {
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pub(crate) id: StructId,
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}
impl Struct {
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pub fn source(
self,
db: &(impl DefDatabase + AstDatabase),
) -> (HirFileId, TreeArc<ast::StructDef>) {
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self.id.source(db)
}
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pub fn module(self, db: &impl HirDatabase) -> Module {
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self.id.module(db)
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}
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pub fn name(self, db: &impl DefDatabase) -> Option<Name> {
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db.struct_data(self).name.clone()
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}
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pub fn fields(self, db: &impl HirDatabase) -> Vec<StructField> {
db.struct_data(self)
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.variant_data
.fields()
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.into_iter()
.flat_map(|it| it.iter())
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.map(|(id, _)| StructField { parent: self.into(), id })
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.collect()
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}
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pub fn field(self, db: &impl HirDatabase, name: &Name) -> Option<StructField> {
db.struct_data(self)
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.variant_data
.fields()
.into_iter()
.flat_map(|it| it.iter())
.find(|(_id, data)| data.name == *name)
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.map(|(id, _)| StructField { parent: self.into(), id })
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}
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pub fn ty(self, db: &impl HirDatabase) -> Ty {
db.type_for_def(self.into(), Namespace::Types)
}
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pub fn constructor_ty(self, db: &impl HirDatabase) -> Ty {
db.type_for_def(self.into(), Namespace::Values)
}
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// FIXME move to a more general type
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/// Builds a resolver for type references inside this struct.
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pub(crate) fn resolver(self, db: &impl HirDatabase) -> Resolver {
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// take the outer scope...
let r = self.module(db).resolver(db);
// ...and add generic params, if present
let p = self.generic_params(db);
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let r = if !p.params.is_empty() { r.push_generic_params_scope(p) } else { r };
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r
}
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}
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#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
pub struct Union {
pub(crate) id: StructId,
}
impl Union {
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pub fn source(
self,
db: &(impl DefDatabase + AstDatabase),
) -> (HirFileId, TreeArc<ast::StructDef>) {
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self.id.source(db)
}
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pub fn name(self, db: &impl DefDatabase) -> Option<Name> {
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db.struct_data(Struct { id: self.id }).name.clone()
}
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pub fn module(self, db: &impl HirDatabase) -> Module {
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self.id.module(db)
}
// FIXME move to a more general type
/// Builds a resolver for type references inside this union.
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pub(crate) fn resolver(self, db: &impl HirDatabase) -> Resolver {
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// take the outer scope...
let r = self.module(db).resolver(db);
// ...and add generic params, if present
let p = self.generic_params(db);
let r = if !p.params.is_empty() { r.push_generic_params_scope(p) } else { r };
r
}
}
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#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
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pub struct Enum {
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pub(crate) id: EnumId,
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}
impl Enum {
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pub fn source(
self,
db: &(impl DefDatabase + AstDatabase),
) -> (HirFileId, TreeArc<ast::EnumDef>) {
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self.id.source(db)
}
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pub fn module(self, db: &impl HirDatabase) -> Module {
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self.id.module(db)
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}
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pub fn name(self, db: &impl DefDatabase) -> Option<Name> {
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db.enum_data(self).name.clone()
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}
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pub fn variants(self, db: &impl DefDatabase) -> Vec<EnumVariant> {
db.enum_data(self).variants.iter().map(|(id, _)| EnumVariant { parent: self, id }).collect()
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}
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pub fn variant(self, db: &impl DefDatabase, name: &Name) -> Option<EnumVariant> {
db.enum_data(self)
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.variants
.iter()
.find(|(_id, data)| data.name.as_ref() == Some(name))
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.map(|(id, _)| EnumVariant { parent: self, id })
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}
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pub fn ty(self, db: &impl HirDatabase) -> Ty {
db.type_for_def(self.into(), Namespace::Types)
}
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// FIXME: move to a more general type
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/// Builds a resolver for type references inside this struct.
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pub(crate) fn resolver(self, db: &impl HirDatabase) -> Resolver {
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// take the outer scope...
let r = self.module(db).resolver(db);
// ...and add generic params, if present
let p = self.generic_params(db);
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let r = if !p.params.is_empty() { r.push_generic_params_scope(p) } else { r };
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r
}
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}
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#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
pub struct EnumVariant {
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pub(crate) parent: Enum,
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pub(crate) id: EnumVariantId,
}
impl EnumVariant {
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pub fn source(
&self,
db: &(impl DefDatabase + AstDatabase),
) -> (HirFileId, TreeArc<ast::EnumVariant>) {
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self.source_impl(db)
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}
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pub fn module(&self, db: &impl HirDatabase) -> Module {
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self.parent.module(db)
}
pub fn parent_enum(&self, _db: &impl DefDatabase) -> Enum {
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self.parent
}
pub fn name(&self, db: &impl DefDatabase) -> Option<Name> {
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db.enum_data(self.parent).variants[self.id].name.clone()
}
pub fn fields(&self, db: &impl HirDatabase) -> Vec<StructField> {
self.variant_data(db)
.fields()
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.into_iter()
.flat_map(|it| it.iter())
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.map(|(id, _)| StructField { parent: (*self).into(), id })
.collect()
}
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pub fn field(&self, db: &impl HirDatabase, name: &Name) -> Option<StructField> {
self.variant_data(db)
.fields()
.into_iter()
.flat_map(|it| it.iter())
.find(|(_id, data)| data.name == *name)
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.map(|(id, _)| StructField { parent: (*self).into(), id })
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}
}
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/// The defs which have a body.
#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
pub enum DefWithBody {
Function(Function),
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Static(Static),
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Const(Const),
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}
impl_froms!(DefWithBody: Function, Const, Static);
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impl DefWithBody {
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pub fn infer(self, db: &impl HirDatabase) -> Arc<InferenceResult> {
db.infer(self)
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}
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pub fn body(self, db: &impl HirDatabase) -> Arc<Body> {
db.body_hir(self)
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}
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pub fn body_source_map(self, db: &impl HirDatabase) -> Arc<BodySourceMap> {
db.body_with_source_map(self).1
}
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/// Builds a resolver for code inside this item.
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pub(crate) fn resolver(&self, db: &impl HirDatabase) -> Resolver {
match *self {
DefWithBody::Const(ref c) => c.resolver(db),
DefWithBody::Function(ref f) => f.resolver(db),
DefWithBody::Static(ref s) => s.resolver(db),
}
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}
}
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#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
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pub struct Function {
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pub(crate) id: FunctionId,
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}
/// The declared signature of a function.
#[derive(Debug, Clone, PartialEq, Eq)]
pub struct FnSignature {
pub(crate) name: Name,
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pub(crate) params: Vec<TypeRef>,
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pub(crate) ret_type: TypeRef,
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/// True if the first param is `self`. This is relevant to decide whether this
/// can be called as a method.
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pub(crate) has_self_param: bool,
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}
impl FnSignature {
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pub(crate) fn fn_signature_query(
db: &(impl DefDatabase + AstDatabase),
func: Function,
) -> Arc<FnSignature> {
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let (_, node) = func.source(db);
let name = node.name().map(|n| n.as_name()).unwrap_or_else(Name::missing);
let mut params = Vec::new();
let mut has_self_param = false;
if let Some(param_list) = node.param_list() {
if let Some(self_param) = param_list.self_param() {
let self_type = if let Some(type_ref) = self_param.ascribed_type() {
TypeRef::from_ast(type_ref)
} else {
let self_type = TypeRef::Path(Name::self_type().into());
match self_param.kind() {
ast::SelfParamKind::Owned => self_type,
ast::SelfParamKind::Ref => {
TypeRef::Reference(Box::new(self_type), Mutability::Shared)
}
ast::SelfParamKind::MutRef => {
TypeRef::Reference(Box::new(self_type), Mutability::Mut)
}
}
};
params.push(self_type);
has_self_param = true;
}
for param in param_list.params() {
let type_ref = TypeRef::from_ast_opt(param.ascribed_type());
params.push(type_ref);
}
}
let ret_type = if let Some(type_ref) = node.ret_type().and_then(|rt| rt.type_ref()) {
TypeRef::from_ast(type_ref)
} else {
TypeRef::unit()
};
let sig = FnSignature { name, params, ret_type, has_self_param };
Arc::new(sig)
}
pub fn name(&self) -> &Name {
&self.name
}
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pub fn params(&self) -> &[TypeRef] {
&self.params
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}
pub fn ret_type(&self) -> &TypeRef {
&self.ret_type
}
/// True if the first arg is `self`. This is relevant to decide whether this
/// can be called as a method.
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pub fn has_self_param(&self) -> bool {
self.has_self_param
}
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}
impl Function {
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pub fn source(self, db: &(impl DefDatabase + AstDatabase)) -> (HirFileId, TreeArc<ast::FnDef>) {
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self.id.source(db)
}
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pub fn module(self, db: &impl DefDatabase) -> Module {
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self.id.module(db)
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}
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pub fn name(self, db: &impl HirDatabase) -> Name {
self.signature(db).name.clone()
}
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pub(crate) fn body_source_map(self, db: &impl HirDatabase) -> Arc<BodySourceMap> {
db.body_with_source_map(self.into()).1
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}
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pub fn body(self, db: &impl HirDatabase) -> Arc<Body> {
db.body_hir(self.into())
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}
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pub fn ty(self, db: &impl HirDatabase) -> Ty {
db.type_for_def(self.into(), Namespace::Values)
}
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pub fn signature(self, db: &impl HirDatabase) -> Arc<FnSignature> {
db.fn_signature(self)
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}
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pub fn infer(self, db: &impl HirDatabase) -> Arc<InferenceResult> {
db.infer(self.into())
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}
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/// The containing impl block, if this is a method.
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pub fn impl_block(self, db: &impl DefDatabase) -> Option<ImplBlock> {
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let module_impls = db.impls_in_module(self.module(db));
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ImplBlock::containing(module_impls, self.into())
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}
/// The containing trait, if this is a trait method definition.
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pub fn parent_trait(self, db: &impl DefDatabase) -> Option<Trait> {
db.trait_items_index(self.module(db)).get_parent_trait(self.into())
}
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pub fn container(self, db: &impl DefDatabase) -> Option<Container> {
if let Some(impl_block) = self.impl_block(db) {
Some(impl_block.into())
} else if let Some(trait_) = self.parent_trait(db) {
Some(trait_.into())
} else {
None
}
}
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// FIXME: move to a more general type for 'body-having' items
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/// Builds a resolver for code inside this item.
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pub(crate) fn resolver(self, db: &impl HirDatabase) -> Resolver {
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// take the outer scope...
let r = self.container(db).map_or_else(|| self.module(db).resolver(db), |c| c.resolver(db));
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// ...and add generic params, if present
let p = self.generic_params(db);
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let r = if !p.params.is_empty() { r.push_generic_params_scope(p) } else { r };
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r
}
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pub fn diagnostics(self, db: &impl HirDatabase, sink: &mut DiagnosticSink) {
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let infer = self.infer(db);
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infer.add_diagnostics(db, self, sink);
let mut validator = ExprValidator::new(self, infer, sink);
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validator.validate_body(db);
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}
}
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#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
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pub struct Const {
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pub(crate) id: ConstId,
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}
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impl Const {
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pub fn source(
self,
db: &(impl DefDatabase + AstDatabase),
) -> (HirFileId, TreeArc<ast::ConstDef>) {
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self.id.source(db)
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}
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pub fn module(self, db: &impl DefDatabase) -> Module {
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self.id.module(db)
}
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pub fn signature(self, db: &impl HirDatabase) -> Arc<ConstSignature> {
db.const_signature(self)
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}
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pub fn infer(self, db: &impl HirDatabase) -> Arc<InferenceResult> {
db.infer(self.into())
}
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/// The containing impl block, if this is a method.
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pub fn impl_block(self, db: &impl DefDatabase) -> Option<ImplBlock> {
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let module_impls = db.impls_in_module(self.module(db));
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ImplBlock::containing(module_impls, self.into())
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}
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// FIXME: move to a more general type for 'body-having' items
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/// Builds a resolver for code inside this item.
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pub(crate) fn resolver(self, db: &impl HirDatabase) -> Resolver {
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// take the outer scope...
let r = self
.impl_block(db)
.map(|ib| ib.resolver(db))
.unwrap_or_else(|| self.module(db).resolver(db));
r
}
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}
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/// The declared signature of a const.
#[derive(Debug, Clone, PartialEq, Eq)]
pub struct ConstSignature {
pub(crate) name: Name,
pub(crate) type_ref: TypeRef,
}
impl ConstSignature {
pub fn name(&self) -> &Name {
&self.name
}
pub fn type_ref(&self) -> &TypeRef {
&self.type_ref
}
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pub(crate) fn const_signature_query(
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db: &(impl DefDatabase + AstDatabase),
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konst: Const,
) -> Arc<ConstSignature> {
let (_, node) = konst.source(db);
const_signature_for(&*node)
}
pub(crate) fn static_signature_query(
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db: &(impl DefDatabase + AstDatabase),
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konst: Static,
) -> Arc<ConstSignature> {
let (_, node) = konst.source(db);
const_signature_for(&*node)
}
}
fn const_signature_for<N: NameOwner + TypeAscriptionOwner>(node: &N) -> Arc<ConstSignature> {
let name = node.name().map(|n| n.as_name()).unwrap_or_else(Name::missing);
let type_ref = TypeRef::from_ast_opt(node.ascribed_type());
let sig = ConstSignature { name, type_ref };
Arc::new(sig)
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}
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#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
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pub struct Static {
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pub(crate) id: StaticId,
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}
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impl Static {
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pub fn source(
self,
db: &(impl DefDatabase + AstDatabase),
) -> (HirFileId, TreeArc<ast::StaticDef>) {
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self.id.source(db)
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}
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pub fn module(self, db: &impl DefDatabase) -> Module {
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self.id.module(db)
}
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pub fn signature(self, db: &impl HirDatabase) -> Arc<ConstSignature> {
db.static_signature(self)
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}
/// Builds a resolver for code inside this item.
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pub(crate) fn resolver(self, db: &impl HirDatabase) -> Resolver {
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// take the outer scope...
self.module(db).resolver(db)
}
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pub fn infer(self, db: &impl HirDatabase) -> Arc<InferenceResult> {
db.infer(self.into())
}
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}
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#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
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pub struct Trait {
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pub(crate) id: TraitId,
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}
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impl Trait {
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pub fn source(
self,
db: &(impl DefDatabase + AstDatabase),
) -> (HirFileId, TreeArc<ast::TraitDef>) {
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self.id.source(db)
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}
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pub fn module(self, db: &impl DefDatabase) -> Module {
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self.id.module(db)
}
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pub fn name(self, db: &impl DefDatabase) -> Option<Name> {
self.trait_data(db).name().clone()
}
pub fn items(self, db: &impl DefDatabase) -> Vec<TraitItem> {
self.trait_data(db).items().to_vec()
}
pub(crate) fn trait_data(self, db: &impl DefDatabase) -> Arc<TraitData> {
db.trait_data(self)
}
pub fn trait_ref(self, db: &impl HirDatabase) -> TraitRef {
TraitRef::for_trait(db, self)
}
pub fn is_auto(self, db: &impl DefDatabase) -> bool {
self.trait_data(db).is_auto()
}
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pub(crate) fn resolver(self, db: &impl DefDatabase) -> Resolver {
let r = self.module(db).resolver(db);
// add generic params, if present
let p = self.generic_params(db);
let r = if !p.params.is_empty() { r.push_generic_params_scope(p) } else { r };
r
}
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}
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#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
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pub struct TypeAlias {
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pub(crate) id: TypeAliasId,
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}
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impl TypeAlias {
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pub fn source(
self,
db: &(impl DefDatabase + AstDatabase),
) -> (HirFileId, TreeArc<ast::TypeAliasDef>) {
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self.id.source(db)
}
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pub fn module(self, db: &impl DefDatabase) -> Module {
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self.id.module(db)
}
/// The containing impl block, if this is a method.
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pub fn impl_block(self, db: &impl DefDatabase) -> Option<ImplBlock> {
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let module_impls = db.impls_in_module(self.module(db));
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ImplBlock::containing(module_impls, self.into())
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}
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/// The containing trait, if this is a trait method definition.
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pub fn parent_trait(self, db: &impl DefDatabase) -> Option<Trait> {
db.trait_items_index(self.module(db)).get_parent_trait(self.into())
}
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pub fn container(self, db: &impl DefDatabase) -> Option<Container> {
if let Some(impl_block) = self.impl_block(db) {
Some(impl_block.into())
} else if let Some(trait_) = self.parent_trait(db) {
Some(trait_.into())
} else {
None
}
}
pub fn type_ref(self, db: &impl DefDatabase) -> Arc<TypeRef> {
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db.type_alias_ref(self)
}
/// Builds a resolver for the type references in this type alias.
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pub(crate) fn resolver(self, db: &impl HirDatabase) -> Resolver {
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// take the outer scope...
let r = self
.impl_block(db)
.map(|ib| ib.resolver(db))
.unwrap_or_else(|| self.module(db).resolver(db));
// ...and add generic params, if present
let p = self.generic_params(db);
let r = if !p.params.is_empty() { r.push_generic_params_scope(p) } else { r };
r
}
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}
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#[derive(Debug, Clone, Copy, PartialEq, Eq, Hash)]
pub struct MacroDef {
pub(crate) id: MacroDefId,
}
pub enum Container {
Trait(Trait),
ImplBlock(ImplBlock),
}
impl_froms!(Container: Trait, ImplBlock);
impl Container {
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pub(crate) fn resolver(self, db: &impl DefDatabase) -> Resolver {
match self {
Container::Trait(trait_) => trait_.resolver(db),
Container::ImplBlock(impl_block) => impl_block.resolver(db),
}
}
}