rust/crates/hir-ty/src/method_resolution.rs

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//! This module is concerned with finding methods that a given type provides.
//! For details about how this works in rustc, see the method lookup page in the
//! [rustc guide](https://rust-lang.github.io/rustc-guide/method-lookup.html)
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//! and the corresponding code mostly in rustc_hir_analysis/check/method/probe.rs.
use std::{ops::ControlFlow, sync::Arc};
use base_db::{CrateId, Edition};
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use chalk_ir::{cast::Cast, Mutability, TyKind, UniverseIndex};
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use hir_def::{
data::ImplData, item_scope::ItemScope, lang_item::LangItem, nameres::DefMap, AssocItemId,
BlockId, ConstId, FunctionId, HasModule, ImplId, ItemContainerId, Lookup, ModuleDefId,
ModuleId, TraitId,
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};
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use hir_expand::name::Name;
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use rustc_hash::{FxHashMap, FxHashSet};
use smallvec::{smallvec, SmallVec};
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use stdx::never;
use crate::{
autoderef::{self, AutoderefKind},
db::HirDatabase,
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from_foreign_def_id,
infer::{unify::InferenceTable, Adjust, Adjustment, AutoBorrow, OverloadedDeref, PointerCast},
primitive::{FloatTy, IntTy, UintTy},
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static_lifetime, to_chalk_trait_id,
utils::all_super_traits,
AdtId, Canonical, CanonicalVarKinds, DebruijnIndex, ForeignDefId, InEnvironment, Interner,
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Scalar, Substitution, TraitEnvironment, TraitRef, TraitRefExt, Ty, TyBuilder, TyExt,
};
/// This is used as a key for indexing impls.
#[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)]
pub enum TyFingerprint {
// These are lang item impls:
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Str,
Slice,
Array,
Never,
RawPtr(Mutability),
Scalar(Scalar),
// These can have user-defined impls:
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Adt(hir_def::AdtId),
Dyn(TraitId),
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ForeignType(ForeignDefId),
// These only exist for trait impls
Unit,
Unnameable,
Function(u32),
}
impl TyFingerprint {
/// Creates a TyFingerprint for looking up an inherent impl. Only certain
/// types can have inherent impls: if we have some `struct S`, we can have
/// an `impl S`, but not `impl &S`. Hence, this will return `None` for
/// reference types and such.
pub fn for_inherent_impl(ty: &Ty) -> Option<TyFingerprint> {
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let fp = match ty.kind(Interner) {
TyKind::Str => TyFingerprint::Str,
TyKind::Never => TyFingerprint::Never,
TyKind::Slice(..) => TyFingerprint::Slice,
TyKind::Array(..) => TyFingerprint::Array,
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TyKind::Scalar(scalar) => TyFingerprint::Scalar(*scalar),
TyKind::Adt(AdtId(adt), _) => TyFingerprint::Adt(*adt),
TyKind::Raw(mutability, ..) => TyFingerprint::RawPtr(*mutability),
TyKind::Foreign(alias_id, ..) => TyFingerprint::ForeignType(*alias_id),
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TyKind::Dyn(_) => ty.dyn_trait().map(TyFingerprint::Dyn)?,
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_ => return None,
};
Some(fp)
}
/// Creates a TyFingerprint for looking up a trait impl.
pub fn for_trait_impl(ty: &Ty) -> Option<TyFingerprint> {
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let fp = match ty.kind(Interner) {
TyKind::Str => TyFingerprint::Str,
TyKind::Never => TyFingerprint::Never,
TyKind::Slice(..) => TyFingerprint::Slice,
TyKind::Array(..) => TyFingerprint::Array,
TyKind::Scalar(scalar) => TyFingerprint::Scalar(*scalar),
TyKind::Adt(AdtId(adt), _) => TyFingerprint::Adt(*adt),
TyKind::Raw(mutability, ..) => TyFingerprint::RawPtr(*mutability),
TyKind::Foreign(alias_id, ..) => TyFingerprint::ForeignType(*alias_id),
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TyKind::Dyn(_) => ty.dyn_trait().map(TyFingerprint::Dyn)?,
TyKind::Ref(_, _, ty) => return TyFingerprint::for_trait_impl(ty),
TyKind::Tuple(_, subst) => {
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let first_ty = subst.interned().get(0).map(|arg| arg.assert_ty_ref(Interner));
match first_ty {
Some(ty) => return TyFingerprint::for_trait_impl(ty),
None => TyFingerprint::Unit,
}
}
TyKind::AssociatedType(_, _)
| TyKind::OpaqueType(_, _)
| TyKind::FnDef(_, _)
| TyKind::Closure(_, _)
| TyKind::Generator(..)
| TyKind::GeneratorWitness(..) => TyFingerprint::Unnameable,
TyKind::Function(fn_ptr) => {
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TyFingerprint::Function(fn_ptr.substitution.0.len(Interner) as u32)
}
TyKind::Alias(_)
| TyKind::Placeholder(_)
| TyKind::BoundVar(_)
| TyKind::InferenceVar(_, _)
| TyKind::Error => return None,
};
Some(fp)
}
}
pub(crate) const ALL_INT_FPS: [TyFingerprint; 12] = [
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TyFingerprint::Scalar(Scalar::Int(IntTy::I8)),
TyFingerprint::Scalar(Scalar::Int(IntTy::I16)),
TyFingerprint::Scalar(Scalar::Int(IntTy::I32)),
TyFingerprint::Scalar(Scalar::Int(IntTy::I64)),
TyFingerprint::Scalar(Scalar::Int(IntTy::I128)),
TyFingerprint::Scalar(Scalar::Int(IntTy::Isize)),
TyFingerprint::Scalar(Scalar::Uint(UintTy::U8)),
TyFingerprint::Scalar(Scalar::Uint(UintTy::U16)),
TyFingerprint::Scalar(Scalar::Uint(UintTy::U32)),
TyFingerprint::Scalar(Scalar::Uint(UintTy::U64)),
TyFingerprint::Scalar(Scalar::Uint(UintTy::U128)),
TyFingerprint::Scalar(Scalar::Uint(UintTy::Usize)),
];
pub(crate) const ALL_FLOAT_FPS: [TyFingerprint; 2] = [
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TyFingerprint::Scalar(Scalar::Float(FloatTy::F32)),
TyFingerprint::Scalar(Scalar::Float(FloatTy::F64)),
];
/// Trait impls defined or available in some crate.
#[derive(Debug, Eq, PartialEq)]
pub struct TraitImpls {
// If the `Option<TyFingerprint>` is `None`, the impl may apply to any self type.
map: FxHashMap<TraitId, FxHashMap<Option<TyFingerprint>, Vec<ImplId>>>,
}
impl TraitImpls {
pub(crate) fn trait_impls_in_crate_query(db: &dyn HirDatabase, krate: CrateId) -> Arc<Self> {
let _p = profile::span("trait_impls_in_crate_query").detail(|| format!("{krate:?}"));
let mut impls = Self { map: FxHashMap::default() };
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let crate_def_map = db.crate_def_map(krate);
impls.collect_def_map(db, &crate_def_map);
impls.shrink_to_fit();
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Arc::new(impls)
}
pub(crate) fn trait_impls_in_block_query(
db: &dyn HirDatabase,
block: BlockId,
) -> Option<Arc<Self>> {
let _p = profile::span("trait_impls_in_block_query");
let mut impls = Self { map: FxHashMap::default() };
let block_def_map = db.block_def_map(block)?;
impls.collect_def_map(db, &block_def_map);
impls.shrink_to_fit();
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Some(Arc::new(impls))
}
pub(crate) fn trait_impls_in_deps_query(db: &dyn HirDatabase, krate: CrateId) -> Arc<Self> {
let _p = profile::span("trait_impls_in_deps_query").detail(|| format!("{krate:?}"));
let crate_graph = db.crate_graph();
let mut res = Self { map: FxHashMap::default() };
for krate in crate_graph.transitive_deps(krate) {
res.merge(&db.trait_impls_in_crate(krate));
}
res.shrink_to_fit();
Arc::new(res)
}
fn shrink_to_fit(&mut self) {
self.map.shrink_to_fit();
self.map.values_mut().for_each(|map| {
map.shrink_to_fit();
map.values_mut().for_each(Vec::shrink_to_fit);
});
}
fn collect_def_map(&mut self, db: &dyn HirDatabase, def_map: &DefMap) {
for (_module_id, module_data) in def_map.modules() {
for impl_id in module_data.scope.impls() {
let target_trait = match db.impl_trait(impl_id) {
Some(tr) => tr.skip_binders().hir_trait_id(),
None => continue,
};
let self_ty = db.impl_self_ty(impl_id);
let self_ty_fp = TyFingerprint::for_trait_impl(self_ty.skip_binders());
self.map
.entry(target_trait)
.or_default()
.entry(self_ty_fp)
.or_default()
.push(impl_id);
}
// To better support custom derives, collect impls in all unnamed const items.
// const _: () = { ... };
for konst in collect_unnamed_consts(db, &module_data.scope) {
let body = db.body(konst.into());
for (_, block_def_map) in body.blocks(db.upcast()) {
self.collect_def_map(db, &block_def_map);
}
}
}
}
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fn merge(&mut self, other: &Self) {
for (trait_, other_map) in &other.map {
let map = self.map.entry(*trait_).or_default();
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for (fp, impls) in other_map {
map.entry(*fp).or_default().extend(impls);
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}
}
}
/// Queries all trait impls for the given type.
pub fn for_self_ty_without_blanket_impls(
&self,
fp: TyFingerprint,
) -> impl Iterator<Item = ImplId> + '_ {
self.map
.values()
.flat_map(move |impls| impls.get(&Some(fp)).into_iter())
.flat_map(|it| it.iter().copied())
}
/// Queries all impls of the given trait.
pub fn for_trait(&self, trait_: TraitId) -> impl Iterator<Item = ImplId> + '_ {
self.map
.get(&trait_)
.into_iter()
.flat_map(|map| map.values().flat_map(|v| v.iter().copied()))
}
/// Queries all impls of `trait_` that may apply to `self_ty`.
pub fn for_trait_and_self_ty(
&self,
trait_: TraitId,
self_ty: TyFingerprint,
) -> impl Iterator<Item = ImplId> + '_ {
self.map
.get(&trait_)
.into_iter()
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.flat_map(move |map| map.get(&Some(self_ty)).into_iter().chain(map.get(&None)))
.flat_map(|v| v.iter().copied())
}
pub fn all_impls(&self) -> impl Iterator<Item = ImplId> + '_ {
self.map.values().flat_map(|map| map.values().flat_map(|v| v.iter().copied()))
}
}
/// Inherent impls defined in some crate.
///
/// Inherent impls can only be defined in the crate that also defines the self type of the impl
/// (note that some primitives are considered to be defined by both libcore and liballoc).
///
/// This makes inherent impl lookup easier than trait impl lookup since we only have to consider a
/// single crate.
#[derive(Debug, Eq, PartialEq)]
pub struct InherentImpls {
map: FxHashMap<TyFingerprint, Vec<ImplId>>,
}
impl InherentImpls {
pub(crate) fn inherent_impls_in_crate_query(db: &dyn HirDatabase, krate: CrateId) -> Arc<Self> {
let mut impls = Self { map: FxHashMap::default() };
let crate_def_map = db.crate_def_map(krate);
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impls.collect_def_map(db, &crate_def_map);
impls.shrink_to_fit();
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Arc::new(impls)
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}
pub(crate) fn inherent_impls_in_block_query(
db: &dyn HirDatabase,
block: BlockId,
) -> Option<Arc<Self>> {
let mut impls = Self { map: FxHashMap::default() };
if let Some(block_def_map) = db.block_def_map(block) {
impls.collect_def_map(db, &block_def_map);
impls.shrink_to_fit();
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return Some(Arc::new(impls));
}
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None
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}
fn shrink_to_fit(&mut self) {
self.map.values_mut().for_each(Vec::shrink_to_fit);
self.map.shrink_to_fit();
}
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fn collect_def_map(&mut self, db: &dyn HirDatabase, def_map: &DefMap) {
for (_module_id, module_data) in def_map.modules() {
for impl_id in module_data.scope.impls() {
let data = db.impl_data(impl_id);
if data.target_trait.is_some() {
continue;
}
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let self_ty = db.impl_self_ty(impl_id);
let fp = TyFingerprint::for_inherent_impl(self_ty.skip_binders());
if let Some(fp) = fp {
self.map.entry(fp).or_default().push(impl_id);
}
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// `fp` should only be `None` in error cases (either erroneous code or incomplete name resolution)
}
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// To better support custom derives, collect impls in all unnamed const items.
// const _: () = { ... };
for konst in collect_unnamed_consts(db, &module_data.scope) {
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let body = db.body(konst.into());
for (_, block_def_map) in body.blocks(db.upcast()) {
self.collect_def_map(db, &block_def_map);
}
}
}
}
pub fn for_self_ty(&self, self_ty: &Ty) -> &[ImplId] {
match TyFingerprint::for_inherent_impl(self_ty) {
Some(fp) => self.map.get(&fp).map(|vec| vec.as_ref()).unwrap_or(&[]),
None => &[],
}
}
pub fn all_impls(&self) -> impl Iterator<Item = ImplId> + '_ {
self.map.values().flat_map(|v| v.iter().copied())
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}
}
pub(crate) fn incoherent_inherent_impl_crates(
db: &dyn HirDatabase,
krate: CrateId,
fp: TyFingerprint,
) -> SmallVec<[CrateId; 2]> {
let _p = profile::span("inherent_impl_crates_query");
let mut res = SmallVec::new();
let crate_graph = db.crate_graph();
// should pass crate for finger print and do reverse deps
for krate in crate_graph.transitive_deps(krate) {
let impls = db.inherent_impls_in_crate(krate);
if impls.map.get(&fp).map_or(false, |v| !v.is_empty()) {
res.push(krate);
}
}
res
}
fn collect_unnamed_consts<'a>(
db: &'a dyn HirDatabase,
scope: &'a ItemScope,
) -> impl Iterator<Item = ConstId> + 'a {
let unnamed_consts = scope.unnamed_consts();
// FIXME: Also treat consts named `_DERIVE_*` as unnamed, since synstructure generates those.
// Should be removed once synstructure stops doing that.
let synstructure_hack_consts = scope.values().filter_map(|(item, _)| match item {
ModuleDefId::ConstId(id) => {
let loc = id.lookup(db.upcast());
let item_tree = loc.id.item_tree(db.upcast());
if item_tree[loc.id.value]
.name
.as_ref()
.map_or(false, |n| n.to_smol_str().starts_with("_DERIVE_"))
{
Some(id)
} else {
None
}
}
_ => None,
});
unnamed_consts.chain(synstructure_hack_consts)
}
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pub fn def_crates(
db: &dyn HirDatabase,
ty: &Ty,
cur_crate: CrateId,
) -> Option<SmallVec<[CrateId; 2]>> {
match ty.kind(Interner) {
&TyKind::Adt(AdtId(def_id), _) => {
let rustc_has_incoherent_inherent_impls = match def_id {
hir_def::AdtId::StructId(id) => {
db.struct_data(id).rustc_has_incoherent_inherent_impls
}
hir_def::AdtId::UnionId(id) => {
db.union_data(id).rustc_has_incoherent_inherent_impls
}
hir_def::AdtId::EnumId(id) => db.enum_data(id).rustc_has_incoherent_inherent_impls,
};
Some(if rustc_has_incoherent_inherent_impls {
db.incoherent_inherent_impl_crates(cur_crate, TyFingerprint::Adt(def_id))
} else {
smallvec![def_id.module(db.upcast()).krate()]
})
}
&TyKind::Foreign(id) => {
let alias = from_foreign_def_id(id);
Some(if db.type_alias_data(alias).rustc_has_incoherent_inherent_impls {
db.incoherent_inherent_impl_crates(cur_crate, TyFingerprint::ForeignType(id))
} else {
smallvec![alias.module(db.upcast()).krate()]
})
}
TyKind::Dyn(_) => {
let trait_id = ty.dyn_trait()?;
Some(if db.trait_data(trait_id).rustc_has_incoherent_inherent_impls {
db.incoherent_inherent_impl_crates(cur_crate, TyFingerprint::Dyn(trait_id))
} else {
smallvec![trait_id.module(db.upcast()).krate()]
})
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}
// for primitives, there may be impls in various places (core and alloc
// mostly). We just check the whole crate graph for crates with impls
// (cached behind a query).
TyKind::Scalar(_)
| TyKind::Str
| TyKind::Slice(_)
| TyKind::Array(..)
| TyKind::Raw(..) => Some(db.incoherent_inherent_impl_crates(
cur_crate,
TyFingerprint::for_inherent_impl(ty).expect("fingerprint for primitive"),
)),
_ => None,
}
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}
pub fn lang_items_for_bin_op(op: syntax::ast::BinaryOp) -> Option<(Name, LangItem)> {
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use hir_expand::name;
use syntax::ast::{ArithOp, BinaryOp, CmpOp, Ordering};
Some(match op {
BinaryOp::LogicOp(_) => return None,
BinaryOp::ArithOp(aop) => match aop {
ArithOp::Add => (name![add], LangItem::Add),
ArithOp::Mul => (name![mul], LangItem::Mul),
ArithOp::Sub => (name![sub], LangItem::Sub),
ArithOp::Div => (name![div], LangItem::Div),
ArithOp::Rem => (name![rem], LangItem::Rem),
ArithOp::Shl => (name![shl], LangItem::Shl),
ArithOp::Shr => (name![shr], LangItem::Shr),
ArithOp::BitXor => (name![bitxor], LangItem::BitXor),
ArithOp::BitOr => (name![bitor], LangItem::BitOr),
ArithOp::BitAnd => (name![bitand], LangItem::BitAnd),
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},
BinaryOp::Assignment { op: Some(aop) } => match aop {
ArithOp::Add => (name![add_assign], LangItem::AddAssign),
ArithOp::Mul => (name![mul_assign], LangItem::MulAssign),
ArithOp::Sub => (name![sub_assign], LangItem::SubAssign),
ArithOp::Div => (name![div_assign], LangItem::DivAssign),
ArithOp::Rem => (name![rem_assign], LangItem::RemAssign),
ArithOp::Shl => (name![shl_assign], LangItem::ShlAssign),
ArithOp::Shr => (name![shr_assign], LangItem::ShrAssign),
ArithOp::BitXor => (name![bitxor_assign], LangItem::BitXorAssign),
ArithOp::BitOr => (name![bitor_assign], LangItem::BitOrAssign),
ArithOp::BitAnd => (name![bitand_assign], LangItem::BitAndAssign),
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},
BinaryOp::CmpOp(cop) => match cop {
CmpOp::Eq { negated: false } => (name![eq], LangItem::PartialEq),
CmpOp::Eq { negated: true } => (name![ne], LangItem::PartialEq),
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CmpOp::Ord { ordering: Ordering::Less, strict: false } => {
(name![le], LangItem::PartialOrd)
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}
CmpOp::Ord { ordering: Ordering::Less, strict: true } => {
(name![lt], LangItem::PartialOrd)
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}
CmpOp::Ord { ordering: Ordering::Greater, strict: false } => {
(name![ge], LangItem::PartialOrd)
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}
CmpOp::Ord { ordering: Ordering::Greater, strict: true } => {
(name![gt], LangItem::PartialOrd)
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}
},
BinaryOp::Assignment { op: None } => return None,
})
}
/// Look up the method with the given name.
pub(crate) fn lookup_method(
db: &dyn HirDatabase,
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ty: &Canonical<Ty>,
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env: Arc<TraitEnvironment>,
traits_in_scope: &FxHashSet<TraitId>,
visible_from_module: VisibleFromModule,
name: &Name,
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) -> Option<(ReceiverAdjustments, FunctionId, bool)> {
let mut not_visible = None;
let res = iterate_method_candidates(
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ty,
db,
env,
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traits_in_scope,
visible_from_module,
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Some(name),
LookupMode::MethodCall,
|adjustments, f, visible| match f {
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AssocItemId::FunctionId(f) if visible => Some((adjustments, f, true)),
AssocItemId::FunctionId(f) if not_visible.is_none() => {
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not_visible = Some((adjustments, f, false));
None
}
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_ => None,
},
);
res.or(not_visible)
}
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/// Whether we're looking up a dotted method call (like `v.len()`) or a path
/// (like `Vec::new`).
#[derive(Copy, Clone, Debug, PartialEq, Eq)]
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pub enum LookupMode {
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/// Looking up a method call like `v.len()`: We only consider candidates
/// that have a `self` parameter, and do autoderef.
MethodCall,
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/// Looking up a path like `Vec::new` or `Vec::default`: We consider all
/// candidates including associated constants, but don't do autoderef.
Path,
}
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#[derive(Clone, Copy)]
pub enum VisibleFromModule {
/// Filter for results that are visible from the given module
Filter(ModuleId),
/// Include impls from the given block.
IncludeBlock(BlockId),
/// Do nothing special in regards visibility
None,
}
impl From<Option<ModuleId>> for VisibleFromModule {
fn from(module: Option<ModuleId>) -> Self {
match module {
Some(module) => Self::Filter(module),
None => Self::None,
}
}
}
impl From<Option<BlockId>> for VisibleFromModule {
fn from(block: Option<BlockId>) -> Self {
match block {
Some(block) => Self::IncludeBlock(block),
None => Self::None,
}
}
}
#[derive(Debug, Clone, Default)]
pub struct ReceiverAdjustments {
autoref: Option<Mutability>,
autoderefs: usize,
unsize_array: bool,
}
impl ReceiverAdjustments {
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pub(crate) fn apply(&self, table: &mut InferenceTable<'_>, ty: Ty) -> (Ty, Vec<Adjustment>) {
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let mut ty = table.resolve_ty_shallow(&ty);
let mut adjust = Vec::new();
for _ in 0..self.autoderefs {
match autoderef::autoderef_step(table, ty.clone()) {
None => {
never!("autoderef not possible for {:?}", ty);
ty = TyKind::Error.intern(Interner);
break;
}
Some((kind, new_ty)) => {
ty = new_ty.clone();
adjust.push(Adjustment {
kind: Adjust::Deref(match kind {
// FIXME should we know the mutability here?
AutoderefKind::Overloaded => Some(OverloadedDeref(Mutability::Not)),
AutoderefKind::Builtin => None,
}),
target: new_ty,
});
}
}
}
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if let Some(m) = self.autoref {
ty = TyKind::Ref(m, static_lifetime(), ty).intern(Interner);
adjust
.push(Adjustment { kind: Adjust::Borrow(AutoBorrow::Ref(m)), target: ty.clone() });
}
if self.unsize_array {
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ty = 'x: {
if let TyKind::Ref(m, l, inner) = ty.kind(Interner) {
if let TyKind::Array(inner, _) = inner.kind(Interner) {
break 'x TyKind::Ref(
m.clone(),
l.clone(),
TyKind::Slice(inner.clone()).intern(Interner),
)
.intern(Interner);
}
}
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never!("unsize_array with non-reference-to-array {:?}", ty);
ty
};
adjust.push(Adjustment {
kind: Adjust::Pointer(PointerCast::Unsize),
target: ty.clone(),
});
}
(ty, adjust)
}
fn with_autoref(&self, m: Mutability) -> ReceiverAdjustments {
Self { autoref: Some(m), ..*self }
}
}
// This would be nicer if it just returned an iterator, but that runs into
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// lifetime problems, because we need to borrow temp `CrateImplDefs`.
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// FIXME add a context type here?
pub(crate) fn iterate_method_candidates<T>(
ty: &Canonical<Ty>,
db: &dyn HirDatabase,
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env: Arc<TraitEnvironment>,
traits_in_scope: &FxHashSet<TraitId>,
visible_from_module: VisibleFromModule,
name: Option<&Name>,
mode: LookupMode,
mut callback: impl FnMut(ReceiverAdjustments, AssocItemId, bool) -> Option<T>,
) -> Option<T> {
let mut slot = None;
internal: improve compile times a bit before after for cargo llvm-lines -q --lib --release -p ide_ssr | head -n 24 Lines Copies Function name ----- ------ ------------- 297146 (100%) 12748 (100%) (TOTAL) 5970 (2.0%) 47 (0.4%) core::iter::traits::iterator::Iterator::try_fold 4750 (1.6%) 27 (0.2%) hashbrown::raw::RawTable<T,A>::resize 4080 (1.4%) 30 (0.2%) alloc::raw_vec::RawVec<T,A>::grow_amortized 3933 (1.3%) 69 (0.5%) alloc::raw_vec::RawVec<T,A>::current_memory 3668 (1.2%) 89 (0.7%) <core::result::Result<T,E> as core::ops::try_trait::Try>::branch 3500 (1.2%) 50 (0.4%) hashbrown::raw::RawTable<T,A>::drop_elements 3436 (1.2%) 33 (0.3%) hashbrown::raw::RawTable<T,A>::find 3415 (1.1%) 17 (0.1%) hashbrown::raw::RawTable<T,A>::rehash_in_place 3400 (1.1%) 50 (0.4%) <hashbrown::raw::RawIterRange<T> as core::iter::traits::iterator::Iterator>::next 2840 (1.0%) 20 (0.2%) alloc::raw_vec::RawVec<T,A>::allocate_in 2700 (0.9%) 30 (0.2%) core::alloc::layout::Layout::array 2666 (0.9%) 86 (0.7%) core::ptr::metadata::from_raw_parts_mut 2495 (0.8%) 50 (0.4%) core::option::Option<T>::map 2354 (0.8%) 38 (0.3%) alloc::alloc::box_free 2302 (0.8%) 7 (0.1%) ide_ssr::parsing::RuleBuilder::try_add 2146 (0.7%) 45 (0.4%) core::mem::replace 2070 (0.7%) 69 (0.5%) <alloc::raw_vec::RawVec<T,A> as core::ops::drop::Drop>::drop 1979 (0.7%) 16 (0.1%) hashbrown::map::HashMap<K,V,S,A>::insert 1926 (0.6%) 18 (0.1%) <core::iter::adapters::zip::Zip<A,B> as core::iter::adapters::zip::ZipImpl<A,B>>::next 1922 (0.6%) 62 (0.5%) core::fmt::ArgumentV1::new 1885 (0.6%) 13 (0.1%) alloc::raw_vec::RawVec<T,A>::shrink Lines Copies Function name ----- ------ ------------- 261717 (100%) 11666 (100%) (TOTAL) 5239 (2.0%) 42 (0.4%) core::iter::traits::iterator::Iterator::try_fold 4750 (1.8%) 27 (0.2%) hashbrown::raw::RawTable<T,A>::resize 3933 (1.5%) 69 (0.6%) alloc::raw_vec::RawVec<T,A>::current_memory 3536 (1.4%) 26 (0.2%) alloc::raw_vec::RawVec<T,A>::grow_amortized 3500 (1.3%) 50 (0.4%) hashbrown::raw::RawTable<T,A>::drop_elements 3400 (1.3%) 50 (0.4%) <hashbrown::raw::RawIterRange<T> as core::iter::traits::iterator::Iterator>::next 3124 (1.2%) 30 (0.3%) hashbrown::raw::RawTable<T,A>::find 2812 (1.1%) 14 (0.1%) hashbrown::raw::RawTable<T,A>::rehash_in_place 2604 (1.0%) 84 (0.7%) core::ptr::metadata::from_raw_parts_mut 2340 (0.9%) 26 (0.2%) core::alloc::layout::Layout::array 2302 (0.9%) 7 (0.1%) ide_ssr::parsing::RuleBuilder::try_add 2272 (0.9%) 16 (0.1%) alloc::raw_vec::RawVec<T,A>::allocate_in 2201 (0.8%) 35 (0.3%) alloc::alloc::box_free 2104 (0.8%) 44 (0.4%) core::mem::replace 2079 (0.8%) 42 (0.4%) <core::result::Result<T,E> as core::ops::try_trait::Try>::branch 2070 (0.8%) 69 (0.6%) <alloc::raw_vec::RawVec<T,A> as core::ops::drop::Drop>::drop 1926 (0.7%) 18 (0.2%) <core::iter::adapters::zip::Zip<A,B> as core::iter::adapters::zip::ZipImpl<A,B>>::next 1885 (0.7%) 13 (0.1%) alloc::raw_vec::RawVec<T,A>::shrink 1833 (0.7%) 13 (0.1%) hashbrown::raw::RawTable<T,A>::shrink_to 1771 (0.7%) 91 (0.8%) core::ptr::read 1701 (0.6%) 35 (0.3%) core::option::Option<T>::map
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iterate_method_candidates_dyn(
ty,
db,
env,
traits_in_scope,
visible_from_module,
name,
mode,
&mut |adj, item, visible| {
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assert!(slot.is_none());
if let Some(it) = callback(adj, item, visible) {
slot = Some(it);
return ControlFlow::Break(());
}
ControlFlow::Continue(())
},
);
slot
}
pub fn lookup_impl_const(
db: &dyn HirDatabase,
env: Arc<TraitEnvironment>,
const_id: ConstId,
subs: Substitution,
) -> ConstId {
let trait_id = match const_id.lookup(db.upcast()).container {
ItemContainerId::TraitId(id) => id,
_ => return const_id,
};
let substitution = Substitution::from_iter(Interner, subs.iter(Interner));
let trait_ref = TraitRef { trait_id: to_chalk_trait_id(trait_id), substitution };
let const_data = db.const_data(const_id);
let name = match const_data.name.as_ref() {
Some(name) => name,
None => return const_id,
};
lookup_impl_assoc_item_for_trait_ref(trait_ref, db, env, name)
.and_then(|assoc| if let AssocItemId::ConstId(id) = assoc { Some(id) } else { None })
.unwrap_or(const_id)
}
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/// Looks up the impl method that actually runs for the trait method `func`.
///
/// Returns `func` if it's not a method defined in a trait or the lookup failed.
pub fn lookup_impl_method(
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db: &dyn HirDatabase,
env: Arc<TraitEnvironment>,
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func: FunctionId,
fn_subst: Substitution,
) -> FunctionId {
let trait_id = match func.lookup(db.upcast()).container {
ItemContainerId::TraitId(id) => id,
_ => return func,
};
let trait_params = db.generic_params(trait_id.into()).type_or_consts.len();
let fn_params = fn_subst.len(Interner) - trait_params;
let trait_ref = TraitRef {
trait_id: to_chalk_trait_id(trait_id),
substitution: Substitution::from_iter(Interner, fn_subst.iter(Interner).skip(fn_params)),
};
let name = &db.function_data(func).name;
lookup_impl_assoc_item_for_trait_ref(trait_ref, db, env, name)
.and_then(|assoc| if let AssocItemId::FunctionId(id) = assoc { Some(id) } else { None })
.unwrap_or(func)
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}
fn lookup_impl_assoc_item_for_trait_ref(
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trait_ref: TraitRef,
db: &dyn HirDatabase,
env: Arc<TraitEnvironment>,
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name: &Name,
) -> Option<AssocItemId> {
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let self_ty = trait_ref.self_type_parameter(Interner);
let self_ty_fp = TyFingerprint::for_trait_impl(&self_ty)?;
let impls = db.trait_impls_in_deps(env.krate);
let impls = impls.for_trait_and_self_ty(trait_ref.hir_trait_id(), self_ty_fp);
let table = InferenceTable::new(db, env);
let impl_data = find_matching_impl(impls, table, trait_ref)?;
impl_data.items.iter().find_map(|&it| match it {
AssocItemId::FunctionId(f) => {
(db.function_data(f).name == *name).then_some(AssocItemId::FunctionId(f))
}
AssocItemId::ConstId(c) => db
.const_data(c)
.name
.as_ref()
.map(|n| n == name)
.and_then(|result| if result { Some(AssocItemId::ConstId(c)) } else { None }),
AssocItemId::TypeAliasId(_) => None,
})
}
fn find_matching_impl(
mut impls: impl Iterator<Item = ImplId>,
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mut table: InferenceTable<'_>,
actual_trait_ref: TraitRef,
) -> Option<Arc<ImplData>> {
let db = table.db;
loop {
let impl_ = impls.next()?;
let r = table.run_in_snapshot(|table| {
let impl_data = db.impl_data(impl_);
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let impl_substs =
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TyBuilder::subst_for_def(db, impl_, None).fill_with_inference_vars(table).build();
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let trait_ref = db
.impl_trait(impl_)
.expect("non-trait method in find_matching_impl")
.substitute(Interner, &impl_substs);
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if !table.unify(&trait_ref, &actual_trait_ref) {
return None;
}
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let wcs = crate::chalk_db::convert_where_clauses(db, impl_.into(), &impl_substs)
.into_iter()
.map(|b| b.cast(Interner));
let goal = crate::Goal::all(Interner, wcs);
table.try_obligation(goal).map(|_| impl_data)
});
if r.is_some() {
break r;
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}
}
}
pub fn iterate_path_candidates(
ty: &Canonical<Ty>,
db: &dyn HirDatabase,
env: Arc<TraitEnvironment>,
traits_in_scope: &FxHashSet<TraitId>,
visible_from_module: VisibleFromModule,
name: Option<&Name>,
callback: &mut dyn FnMut(AssocItemId) -> ControlFlow<()>,
) -> ControlFlow<()> {
iterate_method_candidates_dyn(
ty,
db,
env,
traits_in_scope,
visible_from_module,
name,
LookupMode::Path,
// the adjustments are not relevant for path lookup
&mut |_, id, _| callback(id),
)
}
internal: improve compile times a bit before after for cargo llvm-lines -q --lib --release -p ide_ssr | head -n 24 Lines Copies Function name ----- ------ ------------- 297146 (100%) 12748 (100%) (TOTAL) 5970 (2.0%) 47 (0.4%) core::iter::traits::iterator::Iterator::try_fold 4750 (1.6%) 27 (0.2%) hashbrown::raw::RawTable<T,A>::resize 4080 (1.4%) 30 (0.2%) alloc::raw_vec::RawVec<T,A>::grow_amortized 3933 (1.3%) 69 (0.5%) alloc::raw_vec::RawVec<T,A>::current_memory 3668 (1.2%) 89 (0.7%) <core::result::Result<T,E> as core::ops::try_trait::Try>::branch 3500 (1.2%) 50 (0.4%) hashbrown::raw::RawTable<T,A>::drop_elements 3436 (1.2%) 33 (0.3%) hashbrown::raw::RawTable<T,A>::find 3415 (1.1%) 17 (0.1%) hashbrown::raw::RawTable<T,A>::rehash_in_place 3400 (1.1%) 50 (0.4%) <hashbrown::raw::RawIterRange<T> as core::iter::traits::iterator::Iterator>::next 2840 (1.0%) 20 (0.2%) alloc::raw_vec::RawVec<T,A>::allocate_in 2700 (0.9%) 30 (0.2%) core::alloc::layout::Layout::array 2666 (0.9%) 86 (0.7%) core::ptr::metadata::from_raw_parts_mut 2495 (0.8%) 50 (0.4%) core::option::Option<T>::map 2354 (0.8%) 38 (0.3%) alloc::alloc::box_free 2302 (0.8%) 7 (0.1%) ide_ssr::parsing::RuleBuilder::try_add 2146 (0.7%) 45 (0.4%) core::mem::replace 2070 (0.7%) 69 (0.5%) <alloc::raw_vec::RawVec<T,A> as core::ops::drop::Drop>::drop 1979 (0.7%) 16 (0.1%) hashbrown::map::HashMap<K,V,S,A>::insert 1926 (0.6%) 18 (0.1%) <core::iter::adapters::zip::Zip<A,B> as core::iter::adapters::zip::ZipImpl<A,B>>::next 1922 (0.6%) 62 (0.5%) core::fmt::ArgumentV1::new 1885 (0.6%) 13 (0.1%) alloc::raw_vec::RawVec<T,A>::shrink Lines Copies Function name ----- ------ ------------- 261717 (100%) 11666 (100%) (TOTAL) 5239 (2.0%) 42 (0.4%) core::iter::traits::iterator::Iterator::try_fold 4750 (1.8%) 27 (0.2%) hashbrown::raw::RawTable<T,A>::resize 3933 (1.5%) 69 (0.6%) alloc::raw_vec::RawVec<T,A>::current_memory 3536 (1.4%) 26 (0.2%) alloc::raw_vec::RawVec<T,A>::grow_amortized 3500 (1.3%) 50 (0.4%) hashbrown::raw::RawTable<T,A>::drop_elements 3400 (1.3%) 50 (0.4%) <hashbrown::raw::RawIterRange<T> as core::iter::traits::iterator::Iterator>::next 3124 (1.2%) 30 (0.3%) hashbrown::raw::RawTable<T,A>::find 2812 (1.1%) 14 (0.1%) hashbrown::raw::RawTable<T,A>::rehash_in_place 2604 (1.0%) 84 (0.7%) core::ptr::metadata::from_raw_parts_mut 2340 (0.9%) 26 (0.2%) core::alloc::layout::Layout::array 2302 (0.9%) 7 (0.1%) ide_ssr::parsing::RuleBuilder::try_add 2272 (0.9%) 16 (0.1%) alloc::raw_vec::RawVec<T,A>::allocate_in 2201 (0.8%) 35 (0.3%) alloc::alloc::box_free 2104 (0.8%) 44 (0.4%) core::mem::replace 2079 (0.8%) 42 (0.4%) <core::result::Result<T,E> as core::ops::try_trait::Try>::branch 2070 (0.8%) 69 (0.6%) <alloc::raw_vec::RawVec<T,A> as core::ops::drop::Drop>::drop 1926 (0.7%) 18 (0.2%) <core::iter::adapters::zip::Zip<A,B> as core::iter::adapters::zip::ZipImpl<A,B>>::next 1885 (0.7%) 13 (0.1%) alloc::raw_vec::RawVec<T,A>::shrink 1833 (0.7%) 13 (0.1%) hashbrown::raw::RawTable<T,A>::shrink_to 1771 (0.7%) 91 (0.8%) core::ptr::read 1701 (0.6%) 35 (0.3%) core::option::Option<T>::map
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pub fn iterate_method_candidates_dyn(
ty: &Canonical<Ty>,
db: &dyn HirDatabase,
env: Arc<TraitEnvironment>,
traits_in_scope: &FxHashSet<TraitId>,
visible_from_module: VisibleFromModule,
name: Option<&Name>,
mode: LookupMode,
callback: &mut dyn FnMut(ReceiverAdjustments, AssocItemId, bool) -> ControlFlow<()>,
) -> ControlFlow<()> {
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match mode {
LookupMode::MethodCall => {
// For method calls, rust first does any number of autoderef, and
// then one autoref (i.e. when the method takes &self or &mut self).
// Note that when we've got a receiver like &S, even if the method
// we find in the end takes &self, we still do the autoderef step
// (just as rustc does an autoderef and then autoref again).
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// We have to be careful about the order we're looking at candidates
// in here. Consider the case where we're resolving `x.clone()`
// where `x: &Vec<_>`. This resolves to the clone method with self
// type `Vec<_>`, *not* `&_`. I.e. we need to consider methods where
// the receiver type exactly matches before cases where we have to
// do autoref. But in the autoderef steps, the `&_` self type comes
// up *before* the `Vec<_>` self type.
//
// On the other hand, we don't want to just pick any by-value method
// before any by-autoref method; it's just that we need to consider
// the methods by autoderef order of *receiver types*, not *self
// types*.
let mut table = InferenceTable::new(db, env.clone());
let ty = table.instantiate_canonical(ty.clone());
let (deref_chain, adj) = autoderef_method_receiver(&mut table, ty);
let result = deref_chain.into_iter().zip(adj).try_for_each(|(receiver_ty, adj)| {
iterate_method_candidates_with_autoref(
&receiver_ty,
adj,
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db,
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env.clone(),
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traits_in_scope,
visible_from_module,
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name,
callback,
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)
});
result
}
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LookupMode::Path => {
// No autoderef for path lookups
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iterate_method_candidates_for_self_ty(
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ty,
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db,
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env,
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traits_in_scope,
visible_from_module,
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name,
callback,
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)
}
}
}
fn iterate_method_candidates_with_autoref(
receiver_ty: &Canonical<Ty>,
first_adjustment: ReceiverAdjustments,
db: &dyn HirDatabase,
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env: Arc<TraitEnvironment>,
traits_in_scope: &FxHashSet<TraitId>,
visible_from_module: VisibleFromModule,
name: Option<&Name>,
mut callback: &mut dyn FnMut(ReceiverAdjustments, AssocItemId, bool) -> ControlFlow<()>,
) -> ControlFlow<()> {
if receiver_ty.value.is_general_var(Interner, &receiver_ty.binders) {
// don't try to resolve methods on unknown types
return ControlFlow::Continue(());
}
iterate_method_candidates_by_receiver(
receiver_ty,
first_adjustment.clone(),
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db,
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env.clone(),
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traits_in_scope,
visible_from_module,
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name,
&mut callback,
)?;
let refed = Canonical {
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value: TyKind::Ref(Mutability::Not, static_lifetime(), receiver_ty.value.clone())
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.intern(Interner),
binders: receiver_ty.binders.clone(),
};
iterate_method_candidates_by_receiver(
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&refed,
first_adjustment.with_autoref(Mutability::Not),
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db,
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env.clone(),
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traits_in_scope,
visible_from_module,
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name,
&mut callback,
)?;
let ref_muted = Canonical {
value: TyKind::Ref(Mutability::Mut, static_lifetime(), receiver_ty.value.clone())
.intern(Interner),
binders: receiver_ty.binders.clone(),
};
iterate_method_candidates_by_receiver(
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&ref_muted,
first_adjustment.with_autoref(Mutability::Mut),
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db,
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env,
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traits_in_scope,
visible_from_module,
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name,
&mut callback,
)
}
fn iterate_method_candidates_by_receiver(
receiver_ty: &Canonical<Ty>,
receiver_adjustments: ReceiverAdjustments,
db: &dyn HirDatabase,
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env: Arc<TraitEnvironment>,
traits_in_scope: &FxHashSet<TraitId>,
visible_from_module: VisibleFromModule,
name: Option<&Name>,
mut callback: &mut dyn FnMut(ReceiverAdjustments, AssocItemId, bool) -> ControlFlow<()>,
) -> ControlFlow<()> {
let mut table = InferenceTable::new(db, env);
let receiver_ty = table.instantiate_canonical(receiver_ty.clone());
let snapshot = table.snapshot();
// We're looking for methods with *receiver* type receiver_ty. These could
// be found in any of the derefs of receiver_ty, so we have to go through
// that.
let mut autoderef = autoderef::Autoderef::new(&mut table, receiver_ty.clone());
while let Some((self_ty, _)) = autoderef.next() {
iterate_inherent_methods(
&self_ty,
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autoderef.table,
name,
Some(&receiver_ty),
Some(receiver_adjustments.clone()),
visible_from_module,
&mut callback,
)?
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}
table.rollback_to(snapshot);
let mut autoderef = autoderef::Autoderef::new(&mut table, receiver_ty.clone());
while let Some((self_ty, _)) = autoderef.next() {
iterate_trait_method_candidates(
&self_ty,
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autoderef.table,
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traits_in_scope,
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name,
Some(&receiver_ty),
Some(receiver_adjustments.clone()),
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&mut callback,
)?
}
ControlFlow::Continue(())
}
fn iterate_method_candidates_for_self_ty(
self_ty: &Canonical<Ty>,
db: &dyn HirDatabase,
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env: Arc<TraitEnvironment>,
traits_in_scope: &FxHashSet<TraitId>,
visible_from_module: VisibleFromModule,
name: Option<&Name>,
mut callback: &mut dyn FnMut(ReceiverAdjustments, AssocItemId, bool) -> ControlFlow<()>,
) -> ControlFlow<()> {
let mut table = InferenceTable::new(db, env);
let self_ty = table.instantiate_canonical(self_ty.clone());
iterate_inherent_methods(
&self_ty,
&mut table,
name,
None,
None,
visible_from_module,
&mut callback,
)?;
iterate_trait_method_candidates(
&self_ty,
&mut table,
traits_in_scope,
name,
None,
None,
callback,
)
}
fn iterate_trait_method_candidates(
self_ty: &Ty,
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table: &mut InferenceTable<'_>,
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traits_in_scope: &FxHashSet<TraitId>,
name: Option<&Name>,
receiver_ty: Option<&Ty>,
receiver_adjustments: Option<ReceiverAdjustments>,
callback: &mut dyn FnMut(ReceiverAdjustments, AssocItemId, bool) -> ControlFlow<()>,
) -> ControlFlow<()> {
let db = table.db;
let env = table.trait_env.clone();
let self_is_array = matches!(self_ty.kind(Interner), chalk_ir::TyKind::Array(..));
let canonical_self_ty = table.canonicalize(self_ty.clone()).value;
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'traits: for &t in traits_in_scope {
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let data = db.trait_data(t);
// Traits annotated with `#[rustc_skip_array_during_method_dispatch]` are skipped during
// method resolution, if the receiver is an array, and we're compiling for editions before
// 2021.
// This is to make `[a].into_iter()` not break code with the new `IntoIterator` impl for
// arrays.
if data.skip_array_during_method_dispatch && self_is_array {
// FIXME: this should really be using the edition of the method name's span, in case it
// comes from a macro
if db.crate_graph()[env.krate].edition < Edition::Edition2021 {
continue;
}
}
// we'll be lazy about checking whether the type implements the
// trait, but if we find out it doesn't, we'll skip the rest of the
// iteration
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let mut known_implemented = false;
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for &(_, item) in data.items.iter() {
// Don't pass a `visible_from_module` down to `is_valid_candidate`,
// since only inherent methods should be included into visibility checking.
let visible = match is_valid_candidate(table, name, receiver_ty, item, self_ty, None) {
IsValidCandidate::Yes => true,
IsValidCandidate::NotVisible => false,
IsValidCandidate::No => continue,
};
if !known_implemented {
let goal = generic_implements_goal(db, env.clone(), t, &canonical_self_ty);
if db.trait_solve(env.krate, goal.cast(Interner)).is_none() {
continue 'traits;
}
}
known_implemented = true;
callback(receiver_adjustments.clone().unwrap_or_default(), item, visible)?;
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}
}
ControlFlow::Continue(())
}
fn iterate_inherent_methods(
self_ty: &Ty,
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table: &mut InferenceTable<'_>,
name: Option<&Name>,
receiver_ty: Option<&Ty>,
receiver_adjustments: Option<ReceiverAdjustments>,
visible_from_module: VisibleFromModule,
callback: &mut dyn FnMut(ReceiverAdjustments, AssocItemId, bool) -> ControlFlow<()>,
) -> ControlFlow<()> {
let db = table.db;
let env = table.trait_env.clone();
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// For trait object types and placeholder types with trait bounds, the methods of the trait and
// its super traits are considered inherent methods. This matters because these methods have
// higher priority than the other traits' methods, which would be considered in
// `iterate_trait_method_candidates()` only after this function.
match self_ty.kind(Interner) {
TyKind::Placeholder(_) => {
let env = table.trait_env.clone();
let traits = env
.traits_in_scope_from_clauses(self_ty.clone())
.flat_map(|t| all_super_traits(db.upcast(), t));
iterate_inherent_trait_methods(
self_ty,
table,
name,
receiver_ty,
receiver_adjustments.clone(),
callback,
traits,
)?;
}
TyKind::Dyn(_) => {
if let Some(principal_trait) = self_ty.dyn_trait() {
let traits = all_super_traits(db.upcast(), principal_trait);
iterate_inherent_trait_methods(
self_ty,
table,
name,
receiver_ty,
receiver_adjustments.clone(),
callback,
traits.into_iter(),
)?;
}
}
_ => {}
}
let def_crates = match def_crates(db, self_ty, env.krate) {
Some(k) => k,
None => return ControlFlow::Continue(()),
};
let (module, mut block) = match visible_from_module {
VisibleFromModule::Filter(module) => (Some(module), module.containing_block()),
VisibleFromModule::IncludeBlock(block) => (None, Some(block)),
VisibleFromModule::None => (None, None),
};
while let Some(block_id) = block {
if let Some(impls) = db.inherent_impls_in_block(block_id) {
impls_for_self_ty(
&impls,
self_ty,
table,
name,
receiver_ty,
receiver_adjustments.clone(),
module,
callback,
)?;
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}
block = db
.block_def_map(block_id)
.and_then(|map| map.parent())
.and_then(|module| module.containing_block());
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}
for krate in def_crates {
let impls = db.inherent_impls_in_crate(krate);
impls_for_self_ty(
&impls,
self_ty,
table,
name,
receiver_ty,
receiver_adjustments.clone(),
module,
callback,
)?;
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}
return ControlFlow::Continue(());
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fn iterate_inherent_trait_methods(
self_ty: &Ty,
table: &mut InferenceTable<'_>,
name: Option<&Name>,
receiver_ty: Option<&Ty>,
receiver_adjustments: Option<ReceiverAdjustments>,
callback: &mut dyn FnMut(ReceiverAdjustments, AssocItemId, bool) -> ControlFlow<()>,
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traits: impl Iterator<Item = TraitId>,
) -> ControlFlow<()> {
let db = table.db;
for t in traits {
let data = db.trait_data(t);
for &(_, item) in data.items.iter() {
// We don't pass `visible_from_module` as all trait items should be visible.
let visible =
match is_valid_candidate(table, name, receiver_ty, item, self_ty, None) {
IsValidCandidate::Yes => true,
IsValidCandidate::NotVisible => false,
IsValidCandidate::No => continue,
};
callback(receiver_adjustments.clone().unwrap_or_default(), item, visible)?;
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}
}
ControlFlow::Continue(())
}
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fn impls_for_self_ty(
impls: &InherentImpls,
self_ty: &Ty,
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table: &mut InferenceTable<'_>,
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name: Option<&Name>,
receiver_ty: Option<&Ty>,
receiver_adjustments: Option<ReceiverAdjustments>,
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visible_from_module: Option<ModuleId>,
callback: &mut dyn FnMut(ReceiverAdjustments, AssocItemId, bool) -> ControlFlow<()>,
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) -> ControlFlow<()> {
let db = table.db;
let impls_for_self_ty = impls.for_self_ty(self_ty);
for &impl_def in impls_for_self_ty {
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for &item in &db.impl_data(impl_def).items {
let visible = match is_valid_candidate(
table,
name,
receiver_ty,
item,
self_ty,
visible_from_module,
) {
IsValidCandidate::Yes => true,
IsValidCandidate::NotVisible => false,
IsValidCandidate::No => continue,
};
callback(receiver_adjustments.clone().unwrap_or_default(), item, visible)?;
}
}
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ControlFlow::Continue(())
}
}
/// Returns the receiver type for the index trait call.
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pub fn resolve_indexing_op(
db: &dyn HirDatabase,
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env: Arc<TraitEnvironment>,
ty: Canonical<Ty>,
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index_trait: TraitId,
) -> Option<ReceiverAdjustments> {
let mut table = InferenceTable::new(db, env.clone());
let ty = table.instantiate_canonical(ty);
let (deref_chain, adj) = autoderef_method_receiver(&mut table, ty);
for (ty, adj) in deref_chain.into_iter().zip(adj) {
let goal = generic_implements_goal(db, env.clone(), index_trait, &ty);
if db.trait_solve(env.krate, goal.cast(Interner)).is_some() {
return Some(adj);
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}
}
None
}
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macro_rules! check_that {
($cond:expr) => {
if !$cond {
return IsValidCandidate::No;
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}
};
}
fn is_valid_candidate(
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table: &mut InferenceTable<'_>,
name: Option<&Name>,
receiver_ty: Option<&Ty>,
item: AssocItemId,
self_ty: &Ty,
visible_from_module: Option<ModuleId>,
) -> IsValidCandidate {
let db = table.db;
match item {
AssocItemId::FunctionId(m) => {
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is_valid_fn_candidate(table, m, name, receiver_ty, self_ty, visible_from_module)
}
AssocItemId::ConstId(c) => {
let data = db.const_data(c);
check_that!(receiver_ty.is_none());
check_that!(name.map_or(true, |n| data.name.as_ref() == Some(n)));
if let Some(from_module) = visible_from_module {
if !db.const_visibility(c).is_visible_from(db.upcast(), from_module) {
cov_mark::hit!(const_candidate_not_visible);
return IsValidCandidate::NotVisible;
}
}
if let ItemContainerId::ImplId(impl_id) = c.lookup(db.upcast()).container {
let self_ty_matches = table.run_in_snapshot(|table| {
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let expected_self_ty = TyBuilder::impl_self_ty(db, impl_id)
.fill_with_inference_vars(table)
.build();
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table.unify(&expected_self_ty, self_ty)
});
if !self_ty_matches {
cov_mark::hit!(const_candidate_self_type_mismatch);
return IsValidCandidate::No;
}
}
IsValidCandidate::Yes
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}
_ => IsValidCandidate::No,
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}
}
enum IsValidCandidate {
Yes,
No,
NotVisible,
}
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fn is_valid_fn_candidate(
table: &mut InferenceTable<'_>,
fn_id: FunctionId,
name: Option<&Name>,
receiver_ty: Option<&Ty>,
self_ty: &Ty,
visible_from_module: Option<ModuleId>,
) -> IsValidCandidate {
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let db = table.db;
let data = db.function_data(fn_id);
check_that!(name.map_or(true, |n| n == &data.name));
if let Some(from_module) = visible_from_module {
if !db.function_visibility(fn_id).is_visible_from(db.upcast(), from_module) {
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cov_mark::hit!(autoderef_candidate_not_visible);
return IsValidCandidate::NotVisible;
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}
}
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table.run_in_snapshot(|table| {
let container = fn_id.lookup(db.upcast()).container;
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let (impl_subst, expect_self_ty) = match container {
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ItemContainerId::ImplId(it) => {
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let subst =
TyBuilder::subst_for_def(db, it, None).fill_with_inference_vars(table).build();
let self_ty = db.impl_self_ty(it).substitute(Interner, &subst);
(subst, self_ty)
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}
ItemContainerId::TraitId(it) => {
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let subst =
TyBuilder::subst_for_def(db, it, None).fill_with_inference_vars(table).build();
let self_ty = subst.at(Interner, 0).assert_ty_ref(Interner).clone();
(subst, self_ty)
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}
_ => unreachable!(),
};
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let fn_subst = TyBuilder::subst_for_def(db, fn_id, Some(impl_subst.clone()))
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.fill_with_inference_vars(table)
.build();
check_that!(table.unify(&expect_self_ty, self_ty));
if let Some(receiver_ty) = receiver_ty {
check_that!(data.has_self_param());
let sig = db.callable_item_signature(fn_id.into());
let expected_receiver =
sig.map(|s| s.params()[0].clone()).substitute(Interner, &fn_subst);
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check_that!(table.unify(receiver_ty, &expected_receiver));
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}
if let ItemContainerId::ImplId(impl_id) = container {
// We need to consider the bounds on the impl to distinguish functions of the same name
// for a type.
let predicates = db.generic_predicates(impl_id.into());
let valid = predicates
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.iter()
.map(|predicate| {
let (p, b) = predicate
.clone()
.substitute(Interner, &impl_subst)
// Skipping the inner binders is ok, as we don't handle quantified where
// clauses yet.
.into_value_and_skipped_binders();
stdx::always!(b.len(Interner) == 0);
p
})
// It's ok to get ambiguity here, as we may not have enough information to prove
// obligations. We'll check if the user is calling the selected method properly
// later anyway.
.all(|p| table.try_obligation(p.cast(Interner)).is_some());
match valid {
true => IsValidCandidate::Yes,
false => IsValidCandidate::No,
}
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} else {
// For `ItemContainerId::TraitId`, we check if `self_ty` implements the trait in
// `iterate_trait_method_candidates()`.
// For others, this function shouldn't be called.
IsValidCandidate::Yes
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}
})
}
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pub fn implements_trait(
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ty: &Canonical<Ty>,
db: &dyn HirDatabase,
env: Arc<TraitEnvironment>,
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trait_: TraitId,
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) -> bool {
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let goal = generic_implements_goal(db, env.clone(), trait_, ty);
let solution = db.trait_solve(env.krate, goal.cast(Interner));
solution.is_some()
}
pub fn implements_trait_unique(
ty: &Canonical<Ty>,
db: &dyn HirDatabase,
env: Arc<TraitEnvironment>,
trait_: TraitId,
) -> bool {
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let goal = generic_implements_goal(db, env.clone(), trait_, ty);
let solution = db.trait_solve(env.krate, goal.cast(Interner));
matches!(solution, Some(crate::Solution::Unique(_)))
}
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/// This creates Substs for a trait with the given Self type and type variables
/// for all other parameters, to query Chalk with it.
fn generic_implements_goal(
db: &dyn HirDatabase,
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env: Arc<TraitEnvironment>,
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trait_: TraitId,
self_ty: &Canonical<Ty>,
) -> Canonical<InEnvironment<super::DomainGoal>> {
let mut kinds = self_ty.binders.interned().to_vec();
let trait_ref = TyBuilder::trait_ref(db, trait_)
.push(self_ty.value.clone())
.fill_with_bound_vars(DebruijnIndex::INNERMOST, kinds.len())
.build();
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kinds.extend(trait_ref.substitution.iter(Interner).skip(1).map(|x| {
let vk = match x.data(Interner) {
chalk_ir::GenericArgData::Ty(_) => {
chalk_ir::VariableKind::Ty(chalk_ir::TyVariableKind::General)
}
chalk_ir::GenericArgData::Lifetime(_) => chalk_ir::VariableKind::Lifetime,
chalk_ir::GenericArgData::Const(c) => {
chalk_ir::VariableKind::Const(c.data(Interner).ty.clone())
}
};
chalk_ir::WithKind::new(vk, UniverseIndex::ROOT)
}));
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let obligation = trait_ref.cast(Interner);
Canonical {
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binders: CanonicalVarKinds::from_iter(Interner, kinds),
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value: InEnvironment::new(&env.env, obligation),
}
}
fn autoderef_method_receiver(
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table: &mut InferenceTable<'_>,
ty: Ty,
) -> (Vec<Canonical<Ty>>, Vec<ReceiverAdjustments>) {
let (mut deref_chain, mut adjustments): (Vec<_>, Vec<_>) = (Vec::new(), Vec::new());
let mut autoderef = autoderef::Autoderef::new(table, ty);
while let Some((ty, derefs)) = autoderef.next() {
deref_chain.push(autoderef.table.canonicalize(ty).value);
adjustments.push(ReceiverAdjustments {
autoref: None,
autoderefs: derefs,
unsize_array: false,
});
}
// As a last step, we can do array unsizing (that's the only unsizing that rustc does for method receivers!)
if let (Some((TyKind::Array(parameters, _), binders)), Some(adj)) = (
deref_chain.last().map(|ty| (ty.value.kind(Interner), ty.binders.clone())),
adjustments.last().cloned(),
) {
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let unsized_ty = TyKind::Slice(parameters.clone()).intern(Interner);
deref_chain.push(Canonical { value: unsized_ty, binders });
adjustments.push(ReceiverAdjustments { unsize_array: true, ..adj });
}
(deref_chain, adjustments)
}