699 lines
26 KiB
Rust
699 lines
26 KiB
Rust
//! Methods for lowering the HIR to types. There are two main cases here:
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//!
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//! - Lowering a type reference like `&usize` or `Option<foo::bar::Baz>` to a
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//! type: The entry point for this is `Ty::from_hir`.
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//! - Building the type for an item: This happens through the `type_for_def` query.
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//!
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//! This usually involves resolving names, collecting generic arguments etc.
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use std::iter;
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use std::sync::Arc;
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use super::{
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FnSig, GenericPredicate, ProjectionPredicate, ProjectionTy, Substs, TraitRef, Ty, TypeCtor,
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TypeWalk,
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};
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use crate::{
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adt::VariantDef,
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db::HirDatabase,
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generics::HasGenericParams,
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generics::{GenericDef, WherePredicate},
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nameres::Namespace,
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path::{GenericArg, PathSegment},
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resolve::{Resolver, TypeNs},
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ty::Adt,
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type_ref::{TypeBound, TypeRef},
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BuiltinType, Const, Enum, EnumVariant, Function, ModuleDef, Path, Static, Struct, StructField,
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Trait, TypeAlias, Union,
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};
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impl Ty {
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pub(crate) fn from_hir(db: &impl HirDatabase, resolver: &Resolver, type_ref: &TypeRef) -> Self {
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match type_ref {
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TypeRef::Never => Ty::simple(TypeCtor::Never),
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TypeRef::Tuple(inner) => {
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let inner_tys =
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inner.iter().map(|tr| Ty::from_hir(db, resolver, tr)).collect::<Vec<_>>();
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Ty::apply(
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TypeCtor::Tuple { cardinality: inner_tys.len() as u16 },
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Substs(inner_tys.into()),
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)
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}
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TypeRef::Path(path) => Ty::from_hir_path(db, resolver, path),
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TypeRef::RawPtr(inner, mutability) => {
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let inner_ty = Ty::from_hir(db, resolver, inner);
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Ty::apply_one(TypeCtor::RawPtr(*mutability), inner_ty)
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}
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TypeRef::Array(inner) => {
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let inner_ty = Ty::from_hir(db, resolver, inner);
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Ty::apply_one(TypeCtor::Array, inner_ty)
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}
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TypeRef::Slice(inner) => {
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let inner_ty = Ty::from_hir(db, resolver, inner);
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Ty::apply_one(TypeCtor::Slice, inner_ty)
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}
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TypeRef::Reference(inner, mutability) => {
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let inner_ty = Ty::from_hir(db, resolver, inner);
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Ty::apply_one(TypeCtor::Ref(*mutability), inner_ty)
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}
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TypeRef::Placeholder => Ty::Unknown,
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TypeRef::Fn(params) => {
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let inner_tys =
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params.iter().map(|tr| Ty::from_hir(db, resolver, tr)).collect::<Vec<_>>();
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let sig = Substs(inner_tys.into());
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Ty::apply(TypeCtor::FnPtr { num_args: sig.len() as u16 - 1 }, sig)
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}
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TypeRef::DynTrait(bounds) => {
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let self_ty = Ty::Bound(0);
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let predicates = bounds
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.iter()
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.flat_map(|b| {
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GenericPredicate::from_type_bound(db, resolver, b, self_ty.clone())
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})
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.collect::<Vec<_>>();
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Ty::Dyn(predicates.into())
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}
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TypeRef::ImplTrait(bounds) => {
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let self_ty = Ty::Bound(0);
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let predicates = bounds
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.iter()
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.flat_map(|b| {
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GenericPredicate::from_type_bound(db, resolver, b, self_ty.clone())
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})
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.collect::<Vec<_>>();
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Ty::Opaque(predicates.into())
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}
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TypeRef::Error => Ty::Unknown,
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}
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}
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pub(crate) fn from_type_relative_path(
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db: &impl HirDatabase,
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resolver: &Resolver,
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ty: Ty,
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remaining_segments: &[PathSegment],
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) -> Ty {
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if remaining_segments.len() == 1 {
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// resolve unselected assoc types
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let segment = &remaining_segments[0];
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Ty::select_associated_type(db, resolver, ty, segment)
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} else if remaining_segments.len() > 1 {
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// FIXME report error (ambiguous associated type)
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Ty::Unknown
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} else {
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ty
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}
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}
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pub(crate) fn from_partly_resolved_hir_path(
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db: &impl HirDatabase,
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resolver: &Resolver,
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resolution: TypeNs,
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resolved_segment: &PathSegment,
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remaining_segments: &[PathSegment],
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) -> Ty {
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let ty = match resolution {
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TypeNs::Trait(trait_) => {
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let trait_ref =
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TraitRef::from_resolved_path(db, resolver, trait_, resolved_segment, None);
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return if remaining_segments.len() == 1 {
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let segment = &remaining_segments[0];
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match trait_ref
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.trait_
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.associated_type_by_name_including_super_traits(db, &segment.name)
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{
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Some(associated_ty) => {
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// FIXME handle type parameters on the segment
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Ty::Projection(ProjectionTy {
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associated_ty,
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parameters: trait_ref.substs,
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})
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}
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None => {
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// FIXME: report error (associated type not found)
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Ty::Unknown
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}
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}
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} else if remaining_segments.len() > 1 {
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// FIXME report error (ambiguous associated type)
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Ty::Unknown
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} else {
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Ty::Dyn(Arc::new([GenericPredicate::Implemented(trait_ref)]))
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};
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}
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TypeNs::GenericParam(idx) => {
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// FIXME: maybe return name in resolution?
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let name = resolved_segment.name.clone();
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Ty::Param { idx, name }
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}
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TypeNs::SelfType(impl_block) => impl_block.target_ty(db),
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TypeNs::Adt(it) => Ty::from_hir_path_inner(db, resolver, resolved_segment, it.into()),
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TypeNs::BuiltinType(it) => {
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Ty::from_hir_path_inner(db, resolver, resolved_segment, it.into())
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}
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TypeNs::TypeAlias(it) => {
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Ty::from_hir_path_inner(db, resolver, resolved_segment, it.into())
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}
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// FIXME: report error
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TypeNs::EnumVariant(_) => return Ty::Unknown,
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};
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Ty::from_type_relative_path(db, resolver, ty, remaining_segments)
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}
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pub(crate) fn from_hir_path(db: &impl HirDatabase, resolver: &Resolver, path: &Path) -> Ty {
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// Resolve the path (in type namespace)
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if let crate::PathKind::Type(type_ref) = &path.kind {
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let ty = Ty::from_hir(db, resolver, &type_ref);
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let remaining_segments = &path.segments[..];
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return Ty::from_type_relative_path(db, resolver, ty, remaining_segments);
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}
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let (resolution, remaining_index) = match resolver.resolve_path_in_type_ns(db, path) {
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Some(it) => it,
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None => return Ty::Unknown,
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};
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let (resolved_segment, remaining_segments) = match remaining_index {
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None => (
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path.segments.last().expect("resolved path has at least one element"),
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&[] as &[PathSegment],
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),
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Some(i) => (&path.segments[i - 1], &path.segments[i..]),
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};
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Ty::from_partly_resolved_hir_path(
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db,
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resolver,
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resolution,
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resolved_segment,
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remaining_segments,
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)
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}
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fn select_associated_type(
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_db: &impl HirDatabase,
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_resolver: &Resolver,
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_self_ty: Ty,
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_segment: &PathSegment,
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) -> Ty {
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Ty::Unknown
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}
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fn from_hir_path_inner(
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db: &impl HirDatabase,
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resolver: &Resolver,
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segment: &PathSegment,
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typable: TypableDef,
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) -> Ty {
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let ty = db.type_for_def(typable, Namespace::Types);
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let substs = Ty::substs_from_path_segment(db, resolver, segment, typable);
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ty.subst(&substs)
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}
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pub(super) fn substs_from_path_segment(
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db: &impl HirDatabase,
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resolver: &Resolver,
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segment: &PathSegment,
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resolved: TypableDef,
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) -> Substs {
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let def_generic: Option<GenericDef> = match resolved {
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TypableDef::Function(func) => Some(func.into()),
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TypableDef::Adt(adt) => Some(adt.into()),
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TypableDef::EnumVariant(var) => Some(var.parent_enum(db).into()),
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TypableDef::TypeAlias(t) => Some(t.into()),
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TypableDef::Const(_) | TypableDef::Static(_) | TypableDef::BuiltinType(_) => None,
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};
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substs_from_path_segment(db, resolver, segment, def_generic, false)
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}
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/// Collect generic arguments from a path into a `Substs`. See also
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/// `create_substs_for_ast_path` and `def_to_ty` in rustc.
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pub(super) fn substs_from_path(
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db: &impl HirDatabase,
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resolver: &Resolver,
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path: &Path,
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resolved: TypableDef,
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) -> Substs {
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let last = path.segments.last().expect("path should have at least one segment");
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let segment = match resolved {
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TypableDef::Function(_)
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| TypableDef::Adt(_)
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| TypableDef::Const(_)
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| TypableDef::Static(_)
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| TypableDef::TypeAlias(_)
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| TypableDef::BuiltinType(_) => last,
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TypableDef::EnumVariant(_) => {
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// the generic args for an enum variant may be either specified
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// on the segment referring to the enum, or on the segment
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// referring to the variant. So `Option::<T>::None` and
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// `Option::None::<T>` are both allowed (though the former is
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// preferred). See also `def_ids_for_path_segments` in rustc.
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let len = path.segments.len();
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let segment = if len >= 2 && path.segments[len - 2].args_and_bindings.is_some() {
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// Option::<T>::None
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&path.segments[len - 2]
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} else {
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// Option::None::<T>
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last
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};
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segment
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}
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};
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Ty::substs_from_path_segment(db, resolver, segment, resolved)
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}
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}
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pub(super) fn substs_from_path_segment(
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db: &impl HirDatabase,
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resolver: &Resolver,
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segment: &PathSegment,
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def_generic: Option<GenericDef>,
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add_self_param: bool,
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) -> Substs {
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let mut substs = Vec::new();
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let def_generics = def_generic.map(|def| def.generic_params(db)).unwrap_or_default();
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let parent_param_count = def_generics.count_parent_params();
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substs.extend(iter::repeat(Ty::Unknown).take(parent_param_count));
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if add_self_param {
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// FIXME this add_self_param argument is kind of a hack: Traits have the
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// Self type as an implicit first type parameter, but it can't be
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// actually provided in the type arguments
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// (well, actually sometimes it can, in the form of type-relative paths: `<Foo as Default>::default()`)
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substs.push(Ty::Unknown);
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}
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if let Some(generic_args) = &segment.args_and_bindings {
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// if args are provided, it should be all of them, but we can't rely on that
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let self_param_correction = if add_self_param { 1 } else { 0 };
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let param_count = def_generics.params.len() - self_param_correction;
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for arg in generic_args.args.iter().take(param_count) {
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match arg {
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GenericArg::Type(type_ref) => {
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let ty = Ty::from_hir(db, resolver, type_ref);
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substs.push(ty);
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}
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}
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}
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}
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// add placeholders for args that were not provided
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let supplied_params = substs.len();
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for _ in supplied_params..def_generics.count_params_including_parent() {
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substs.push(Ty::Unknown);
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}
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assert_eq!(substs.len(), def_generics.count_params_including_parent());
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// handle defaults
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if let Some(def_generic) = def_generic {
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let default_substs = db.generic_defaults(def_generic);
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assert_eq!(substs.len(), default_substs.len());
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for (i, default_ty) in default_substs.iter().enumerate() {
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if substs[i] == Ty::Unknown {
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substs[i] = default_ty.clone();
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}
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}
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}
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Substs(substs.into())
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}
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impl TraitRef {
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pub(crate) fn from_path(
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db: &impl HirDatabase,
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resolver: &Resolver,
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path: &Path,
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explicit_self_ty: Option<Ty>,
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) -> Option<Self> {
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let resolved = match resolver.resolve_path_in_type_ns_fully(db, &path)? {
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TypeNs::Trait(tr) => tr,
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_ => return None,
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};
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let segment = path.segments.last().expect("path should have at least one segment");
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Some(TraitRef::from_resolved_path(db, resolver, resolved, segment, explicit_self_ty))
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}
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fn from_resolved_path(
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db: &impl HirDatabase,
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resolver: &Resolver,
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resolved: Trait,
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segment: &PathSegment,
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explicit_self_ty: Option<Ty>,
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) -> Self {
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let mut substs = TraitRef::substs_from_path(db, resolver, segment, resolved);
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if let Some(self_ty) = explicit_self_ty {
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// FIXME this could be nicer
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let mut substs_vec = substs.0.to_vec();
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substs_vec[0] = self_ty;
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substs.0 = substs_vec.into();
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}
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TraitRef { trait_: resolved, substs }
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}
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pub(crate) fn from_hir(
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db: &impl HirDatabase,
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resolver: &Resolver,
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type_ref: &TypeRef,
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explicit_self_ty: Option<Ty>,
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) -> Option<Self> {
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let path = match type_ref {
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TypeRef::Path(path) => path,
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_ => return None,
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};
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TraitRef::from_path(db, resolver, path, explicit_self_ty)
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}
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fn substs_from_path(
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db: &impl HirDatabase,
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resolver: &Resolver,
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segment: &PathSegment,
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resolved: Trait,
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) -> Substs {
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let has_self_param =
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segment.args_and_bindings.as_ref().map(|a| a.has_self_type).unwrap_or(false);
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substs_from_path_segment(db, resolver, segment, Some(resolved.into()), !has_self_param)
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}
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pub(crate) fn for_trait(db: &impl HirDatabase, trait_: Trait) -> TraitRef {
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let substs = Substs::identity(&trait_.generic_params(db));
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TraitRef { trait_, substs }
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}
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pub(crate) fn from_type_bound(
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db: &impl HirDatabase,
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resolver: &Resolver,
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bound: &TypeBound,
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self_ty: Ty,
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) -> Option<TraitRef> {
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match bound {
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TypeBound::Path(path) => TraitRef::from_path(db, resolver, path, Some(self_ty)),
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TypeBound::Error => None,
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}
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}
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}
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impl GenericPredicate {
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pub(crate) fn from_where_predicate<'a>(
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db: &'a impl HirDatabase,
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resolver: &'a Resolver,
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where_predicate: &'a WherePredicate,
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) -> impl Iterator<Item = GenericPredicate> + 'a {
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let self_ty = Ty::from_hir(db, resolver, &where_predicate.type_ref);
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GenericPredicate::from_type_bound(db, resolver, &where_predicate.bound, self_ty)
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}
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pub(crate) fn from_type_bound<'a>(
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db: &'a impl HirDatabase,
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resolver: &'a Resolver,
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bound: &'a TypeBound,
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self_ty: Ty,
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) -> impl Iterator<Item = GenericPredicate> + 'a {
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let trait_ref = TraitRef::from_type_bound(db, &resolver, bound, self_ty);
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iter::once(trait_ref.clone().map_or(GenericPredicate::Error, GenericPredicate::Implemented))
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.chain(
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trait_ref.into_iter().flat_map(move |tr| {
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assoc_type_bindings_from_type_bound(db, resolver, bound, tr)
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}),
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)
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}
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}
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fn assoc_type_bindings_from_type_bound<'a>(
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db: &'a impl HirDatabase,
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resolver: &'a Resolver,
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bound: &'a TypeBound,
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trait_ref: TraitRef,
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) -> impl Iterator<Item = GenericPredicate> + 'a {
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let last_segment = match bound {
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TypeBound::Path(path) => path.segments.last(),
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TypeBound::Error => None,
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};
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last_segment
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.into_iter()
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.flat_map(|segment| segment.args_and_bindings.iter())
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.flat_map(|args_and_bindings| args_and_bindings.bindings.iter())
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.map(move |(name, type_ref)| {
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let associated_ty =
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match trait_ref.trait_.associated_type_by_name_including_super_traits(db, &name) {
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None => return GenericPredicate::Error,
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Some(t) => t,
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};
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let projection_ty =
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ProjectionTy { associated_ty, parameters: trait_ref.substs.clone() };
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let ty = Ty::from_hir(db, resolver, type_ref);
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let projection_predicate = ProjectionPredicate { projection_ty, ty };
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GenericPredicate::Projection(projection_predicate)
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})
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}
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|
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/// Build the declared type of an item. This depends on the namespace; e.g. for
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/// `struct Foo(usize)`, we have two types: The type of the struct itself, and
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/// the constructor function `(usize) -> Foo` which lives in the values
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/// namespace.
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pub(crate) fn type_for_def(db: &impl HirDatabase, def: TypableDef, ns: Namespace) -> Ty {
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match (def, ns) {
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(TypableDef::Function(f), Namespace::Values) => type_for_fn(db, f),
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(TypableDef::Adt(Adt::Struct(s)), Namespace::Values) => type_for_struct_constructor(db, s),
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(TypableDef::Adt(adt), Namespace::Types) => type_for_adt(db, adt),
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(TypableDef::EnumVariant(v), Namespace::Values) => type_for_enum_variant_constructor(db, v),
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(TypableDef::TypeAlias(t), Namespace::Types) => type_for_type_alias(db, t),
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(TypableDef::Const(c), Namespace::Values) => type_for_const(db, c),
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(TypableDef::Static(c), Namespace::Values) => type_for_static(db, c),
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(TypableDef::BuiltinType(t), Namespace::Types) => type_for_builtin(t),
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|
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// 'error' cases:
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(TypableDef::Function(_), Namespace::Types) => Ty::Unknown,
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(TypableDef::Adt(Adt::Union(_)), Namespace::Values) => Ty::Unknown,
|
|
(TypableDef::Adt(Adt::Enum(_)), Namespace::Values) => Ty::Unknown,
|
|
(TypableDef::EnumVariant(_), Namespace::Types) => Ty::Unknown,
|
|
(TypableDef::TypeAlias(_), Namespace::Values) => Ty::Unknown,
|
|
(TypableDef::Const(_), Namespace::Types) => Ty::Unknown,
|
|
(TypableDef::Static(_), Namespace::Types) => Ty::Unknown,
|
|
(TypableDef::BuiltinType(_), Namespace::Values) => Ty::Unknown,
|
|
}
|
|
}
|
|
|
|
/// Build the signature of a callable item (function, struct or enum variant).
|
|
pub(crate) fn callable_item_sig(db: &impl HirDatabase, def: CallableDef) -> FnSig {
|
|
match def {
|
|
CallableDef::Function(f) => fn_sig_for_fn(db, f),
|
|
CallableDef::Struct(s) => fn_sig_for_struct_constructor(db, s),
|
|
CallableDef::EnumVariant(e) => fn_sig_for_enum_variant_constructor(db, e),
|
|
}
|
|
}
|
|
|
|
/// Build the type of a specific field of a struct or enum variant.
|
|
pub(crate) fn type_for_field(db: &impl HirDatabase, field: StructField) -> Ty {
|
|
let parent_def = field.parent_def(db);
|
|
let resolver = match parent_def {
|
|
VariantDef::Struct(it) => it.resolver(db),
|
|
VariantDef::EnumVariant(it) => it.parent_enum(db).resolver(db),
|
|
};
|
|
let var_data = parent_def.variant_data(db);
|
|
let type_ref = &var_data.fields().unwrap()[field.id].type_ref;
|
|
Ty::from_hir(db, &resolver, type_ref)
|
|
}
|
|
|
|
pub(crate) fn trait_env(
|
|
db: &impl HirDatabase,
|
|
resolver: &Resolver,
|
|
) -> Arc<super::TraitEnvironment> {
|
|
let predicates = resolver
|
|
.where_predicates_in_scope()
|
|
.flat_map(|pred| GenericPredicate::from_where_predicate(db, &resolver, pred))
|
|
.collect::<Vec<_>>();
|
|
|
|
Arc::new(super::TraitEnvironment { predicates })
|
|
}
|
|
|
|
/// Resolve the where clause(s) of an item with generics.
|
|
pub(crate) fn generic_predicates_query(
|
|
db: &impl HirDatabase,
|
|
def: GenericDef,
|
|
) -> Arc<[GenericPredicate]> {
|
|
let resolver = def.resolver(db);
|
|
let predicates = resolver
|
|
.where_predicates_in_scope()
|
|
.flat_map(|pred| GenericPredicate::from_where_predicate(db, &resolver, pred))
|
|
.collect::<Vec<_>>();
|
|
predicates.into()
|
|
}
|
|
|
|
/// Resolve the default type params from generics
|
|
pub(crate) fn generic_defaults_query(db: &impl HirDatabase, def: GenericDef) -> Substs {
|
|
let resolver = def.resolver(db);
|
|
let generic_params = def.generic_params(db);
|
|
|
|
let defaults = generic_params
|
|
.params_including_parent()
|
|
.into_iter()
|
|
.map(|p| {
|
|
p.default.as_ref().map_or(Ty::Unknown, |path| Ty::from_hir_path(db, &resolver, path))
|
|
})
|
|
.collect::<Vec<_>>();
|
|
|
|
Substs(defaults.into())
|
|
}
|
|
|
|
fn fn_sig_for_fn(db: &impl HirDatabase, def: Function) -> FnSig {
|
|
let data = def.data(db);
|
|
let resolver = def.resolver(db);
|
|
let params = data.params().iter().map(|tr| Ty::from_hir(db, &resolver, tr)).collect::<Vec<_>>();
|
|
let ret = Ty::from_hir(db, &resolver, data.ret_type());
|
|
FnSig::from_params_and_return(params, ret)
|
|
}
|
|
|
|
/// Build the declared type of a function. This should not need to look at the
|
|
/// function body.
|
|
fn type_for_fn(db: &impl HirDatabase, def: Function) -> Ty {
|
|
let generics = def.generic_params(db);
|
|
let substs = Substs::identity(&generics);
|
|
Ty::apply(TypeCtor::FnDef(def.into()), substs)
|
|
}
|
|
|
|
/// Build the declared type of a const.
|
|
fn type_for_const(db: &impl HirDatabase, def: Const) -> Ty {
|
|
let data = def.data(db);
|
|
let resolver = def.resolver(db);
|
|
|
|
Ty::from_hir(db, &resolver, data.type_ref())
|
|
}
|
|
|
|
/// Build the declared type of a static.
|
|
fn type_for_static(db: &impl HirDatabase, def: Static) -> Ty {
|
|
let data = def.data(db);
|
|
let resolver = def.resolver(db);
|
|
|
|
Ty::from_hir(db, &resolver, data.type_ref())
|
|
}
|
|
|
|
/// Build the declared type of a static.
|
|
fn type_for_builtin(def: BuiltinType) -> Ty {
|
|
Ty::simple(match def {
|
|
BuiltinType::Char => TypeCtor::Char,
|
|
BuiltinType::Bool => TypeCtor::Bool,
|
|
BuiltinType::Str => TypeCtor::Str,
|
|
BuiltinType::Int(ty) => TypeCtor::Int(ty.into()),
|
|
BuiltinType::Float(ty) => TypeCtor::Float(ty.into()),
|
|
})
|
|
}
|
|
|
|
fn fn_sig_for_struct_constructor(db: &impl HirDatabase, def: Struct) -> FnSig {
|
|
let var_data = def.variant_data(db);
|
|
let fields = match var_data.fields() {
|
|
Some(fields) => fields,
|
|
None => panic!("fn_sig_for_struct_constructor called on unit struct"),
|
|
};
|
|
let resolver = def.resolver(db);
|
|
let params = fields
|
|
.iter()
|
|
.map(|(_, field)| Ty::from_hir(db, &resolver, &field.type_ref))
|
|
.collect::<Vec<_>>();
|
|
let ret = type_for_adt(db, def);
|
|
FnSig::from_params_and_return(params, ret)
|
|
}
|
|
|
|
/// Build the type of a tuple struct constructor.
|
|
fn type_for_struct_constructor(db: &impl HirDatabase, def: Struct) -> Ty {
|
|
let var_data = def.variant_data(db);
|
|
if var_data.fields().is_none() {
|
|
return type_for_adt(db, def); // Unit struct
|
|
}
|
|
let generics = def.generic_params(db);
|
|
let substs = Substs::identity(&generics);
|
|
Ty::apply(TypeCtor::FnDef(def.into()), substs)
|
|
}
|
|
|
|
fn fn_sig_for_enum_variant_constructor(db: &impl HirDatabase, def: EnumVariant) -> FnSig {
|
|
let var_data = def.variant_data(db);
|
|
let fields = match var_data.fields() {
|
|
Some(fields) => fields,
|
|
None => panic!("fn_sig_for_enum_variant_constructor called for unit variant"),
|
|
};
|
|
let resolver = def.parent_enum(db).resolver(db);
|
|
let params = fields
|
|
.iter()
|
|
.map(|(_, field)| Ty::from_hir(db, &resolver, &field.type_ref))
|
|
.collect::<Vec<_>>();
|
|
let generics = def.parent_enum(db).generic_params(db);
|
|
let substs = Substs::identity(&generics);
|
|
let ret = type_for_adt(db, def.parent_enum(db)).subst(&substs);
|
|
FnSig::from_params_and_return(params, ret)
|
|
}
|
|
|
|
/// Build the type of a tuple enum variant constructor.
|
|
fn type_for_enum_variant_constructor(db: &impl HirDatabase, def: EnumVariant) -> Ty {
|
|
let var_data = def.variant_data(db);
|
|
if var_data.fields().is_none() {
|
|
return type_for_adt(db, def.parent_enum(db)); // Unit variant
|
|
}
|
|
let generics = def.parent_enum(db).generic_params(db);
|
|
let substs = Substs::identity(&generics);
|
|
Ty::apply(TypeCtor::FnDef(def.into()), substs)
|
|
}
|
|
|
|
fn type_for_adt(db: &impl HirDatabase, adt: impl Into<Adt> + HasGenericParams) -> Ty {
|
|
let generics = adt.generic_params(db);
|
|
Ty::apply(TypeCtor::Adt(adt.into()), Substs::identity(&generics))
|
|
}
|
|
|
|
fn type_for_type_alias(db: &impl HirDatabase, t: TypeAlias) -> Ty {
|
|
let generics = t.generic_params(db);
|
|
let resolver = t.resolver(db);
|
|
let type_ref = t.type_ref(db);
|
|
let substs = Substs::identity(&generics);
|
|
let inner = Ty::from_hir(db, &resolver, &type_ref.unwrap_or(TypeRef::Error));
|
|
inner.subst(&substs)
|
|
}
|
|
|
|
#[derive(Clone, Copy, Debug, PartialEq, Eq, Hash)]
|
|
pub enum TypableDef {
|
|
Function(Function),
|
|
Adt(Adt),
|
|
EnumVariant(EnumVariant),
|
|
TypeAlias(TypeAlias),
|
|
Const(Const),
|
|
Static(Static),
|
|
BuiltinType(BuiltinType),
|
|
}
|
|
impl_froms!(
|
|
TypableDef: Function,
|
|
Adt(Struct, Enum, Union),
|
|
EnumVariant,
|
|
TypeAlias,
|
|
Const,
|
|
Static,
|
|
BuiltinType
|
|
);
|
|
|
|
impl From<ModuleDef> for Option<TypableDef> {
|
|
fn from(def: ModuleDef) -> Option<TypableDef> {
|
|
let res = match def {
|
|
ModuleDef::Function(f) => f.into(),
|
|
ModuleDef::Adt(adt) => adt.into(),
|
|
ModuleDef::EnumVariant(v) => v.into(),
|
|
ModuleDef::TypeAlias(t) => t.into(),
|
|
ModuleDef::Const(v) => v.into(),
|
|
ModuleDef::Static(v) => v.into(),
|
|
ModuleDef::BuiltinType(t) => t.into(),
|
|
ModuleDef::Module(_) | ModuleDef::Trait(_) => return None,
|
|
};
|
|
Some(res)
|
|
}
|
|
}
|
|
|
|
#[derive(Clone, Copy, Debug, PartialEq, Eq, Hash)]
|
|
pub enum CallableDef {
|
|
Function(Function),
|
|
Struct(Struct),
|
|
EnumVariant(EnumVariant),
|
|
}
|
|
impl_froms!(CallableDef: Function, Struct, EnumVariant);
|
|
|
|
impl From<CallableDef> for GenericDef {
|
|
fn from(def: CallableDef) -> GenericDef {
|
|
match def {
|
|
CallableDef::Function(f) => f.into(),
|
|
CallableDef::Struct(s) => s.into(),
|
|
CallableDef::EnumVariant(e) => e.into(),
|
|
}
|
|
}
|
|
}
|