rust-analyzer/crates/ra_hir/src/ty/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)
//! and the corresponding code mostly in librustc_typeck/check/method/probe.rs.
use std::sync::Arc;
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use arrayvec::ArrayVec;
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use hir_def::{lang_item::LangItemTarget, resolver::Resolver, AstItemDef, HasModule};
use rustc_hash::FxHashMap;
use crate::{
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db::HirDatabase,
ty::primitive::{FloatBitness, Uncertain},
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ty::{Ty, TypeCtor},
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AssocItem, Crate, Function, ImplBlock, Module, Mutability, Name, Trait,
};
use super::{autoderef, Canonical, InEnvironment, TraitEnvironment, TraitRef};
/// This is used as a key for indexing impls.
#[derive(Debug, Copy, Clone, PartialEq, Eq, Hash)]
pub enum TyFingerprint {
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Apply(TypeCtor),
}
impl TyFingerprint {
/// Creates a TyFingerprint for looking up an impl. Only certain types can
/// have 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.
fn for_impl(ty: &Ty) -> Option<TyFingerprint> {
match ty {
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Ty::Apply(a_ty) => Some(TyFingerprint::Apply(a_ty.ctor)),
_ => None,
}
}
}
#[derive(Debug, PartialEq, Eq)]
pub struct CrateImplBlocks {
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impls: FxHashMap<TyFingerprint, Vec<ImplBlock>>,
impls_by_trait: FxHashMap<Trait, Vec<ImplBlock>>,
}
impl CrateImplBlocks {
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pub(crate) fn impls_in_crate_query(
db: &impl HirDatabase,
krate: Crate,
) -> Arc<CrateImplBlocks> {
let mut crate_impl_blocks =
CrateImplBlocks { impls: FxHashMap::default(), impls_by_trait: FxHashMap::default() };
if let Some(module) = krate.root_module(db) {
crate_impl_blocks.collect_recursive(db, module);
}
Arc::new(crate_impl_blocks)
}
pub fn lookup_impl_blocks(&self, ty: &Ty) -> impl Iterator<Item = ImplBlock> + '_ {
let fingerprint = TyFingerprint::for_impl(ty);
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fingerprint.and_then(|f| self.impls.get(&f)).into_iter().flatten().copied()
}
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pub fn lookup_impl_blocks_for_trait(&self, tr: Trait) -> impl Iterator<Item = ImplBlock> + '_ {
self.impls_by_trait.get(&tr).into_iter().flatten().copied()
}
pub fn all_impls<'a>(&'a self) -> impl Iterator<Item = ImplBlock> + 'a {
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self.impls.values().chain(self.impls_by_trait.values()).flatten().copied()
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}
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fn collect_recursive(&mut self, db: &impl HirDatabase, module: Module) {
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for impl_block in module.impl_blocks(db) {
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let target_ty = impl_block.target_ty(db);
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if impl_block.target_trait(db).is_some() {
if let Some(tr) = impl_block.target_trait_ref(db) {
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self.impls_by_trait.entry(tr.trait_).or_default().push(impl_block);
}
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} else {
if let Some(target_ty_fp) = TyFingerprint::for_impl(&target_ty) {
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self.impls.entry(target_ty_fp).or_default().push(impl_block);
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}
}
}
for child in module.children(db) {
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self.collect_recursive(db, child);
}
}
}
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fn def_crates(db: &impl HirDatabase, cur_crate: Crate, ty: &Ty) -> Option<ArrayVec<[Crate; 2]>> {
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// Types like slice can have inherent impls in several crates, (core and alloc).
// The corresponding impls are marked with lang items, so we can use them to find the required crates.
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macro_rules! lang_item_crate {
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($($name:expr),+ $(,)?) => {{
let mut v = ArrayVec::<[LangItemTarget; 2]>::new();
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$(
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v.extend(db.lang_item(cur_crate.crate_id, $name.into()));
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)+
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v
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}};
}
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let lang_item_targets = match ty {
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Ty::Apply(a_ty) => match a_ty.ctor {
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TypeCtor::Adt(def_id) => {
return Some(std::iter::once(def_id.module(db).krate.into()).collect())
}
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TypeCtor::Bool => lang_item_crate!("bool"),
TypeCtor::Char => lang_item_crate!("char"),
TypeCtor::Float(Uncertain::Known(f)) => match f.bitness {
// There are two lang items: one in libcore (fXX) and one in libstd (fXX_runtime)
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FloatBitness::X32 => lang_item_crate!("f32", "f32_runtime"),
FloatBitness::X64 => lang_item_crate!("f64", "f64_runtime"),
},
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TypeCtor::Int(Uncertain::Known(i)) => lang_item_crate!(i.ty_to_string()),
TypeCtor::Str => lang_item_crate!("str_alloc", "str"),
TypeCtor::Slice => lang_item_crate!("slice_alloc", "slice"),
TypeCtor::RawPtr(Mutability::Shared) => lang_item_crate!("const_ptr"),
TypeCtor::RawPtr(Mutability::Mut) => lang_item_crate!("mut_ptr"),
_ => return None,
},
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_ => return None,
};
let res = lang_item_targets
.into_iter()
.filter_map(|it| match it {
LangItemTarget::ImplBlockId(it) => Some(it),
_ => None,
})
.map(|it| it.module(db).krate.into())
.collect();
Some(res)
}
/// Look up the method with the given name, returning the actual autoderefed
/// receiver type (but without autoref applied yet).
pub(crate) fn lookup_method(
ty: &Canonical<Ty>,
db: &impl HirDatabase,
name: &Name,
resolver: &Resolver,
) -> Option<(Ty, Function)> {
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iterate_method_candidates(ty, db, resolver, Some(name), LookupMode::MethodCall, |ty, f| match f
{
AssocItem::Function(f) => Some((ty.clone(), f)),
_ => None,
})
}
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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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// This would be nicer if it just returned an iterator, but that runs into
// lifetime problems, because we need to borrow temp `CrateImplBlocks`.
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// FIXME add a context type here?
pub(crate) fn iterate_method_candidates<T>(
ty: &Canonical<Ty>,
db: &impl HirDatabase,
resolver: &Resolver,
name: Option<&Name>,
mode: LookupMode,
mut callback: impl FnMut(&Ty, AssocItem) -> Option<T>,
) -> Option<T> {
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let krate = resolver.krate()?;
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). We just ignore
// the autoref currently -- when we find a method matching the given name,
// we assume it fits.
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// Also 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).
let environment = TraitEnvironment::lower(db, resolver);
let ty = InEnvironment { value: ty.clone(), environment };
for derefed_ty in autoderef::autoderef(db, resolver.krate(), ty) {
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if let Some(result) = iterate_inherent_methods(
&derefed_ty,
db,
name,
mode,
krate.into(),
&mut callback,
) {
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return Some(result);
}
if let Some(result) = iterate_trait_method_candidates(
&derefed_ty,
db,
resolver,
name,
mode,
&mut callback,
) {
return Some(result);
}
}
}
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LookupMode::Path => {
// No autoderef for path lookups
if let Some(result) =
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iterate_inherent_methods(&ty, db, name, mode, krate.into(), &mut callback)
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{
return Some(result);
}
if let Some(result) =
iterate_trait_method_candidates(&ty, db, resolver, name, mode, &mut callback)
{
return Some(result);
}
}
}
None
}
fn iterate_trait_method_candidates<T>(
ty: &Canonical<Ty>,
db: &impl HirDatabase,
resolver: &Resolver,
name: Option<&Name>,
mode: LookupMode,
mut callback: impl FnMut(&Ty, AssocItem) -> Option<T>,
) -> Option<T> {
let krate = resolver.krate()?;
// FIXME: maybe put the trait_env behind a query (need to figure out good input parameters for that)
let env = TraitEnvironment::lower(db, resolver);
// if ty is `impl Trait` or `dyn Trait`, the trait doesn't need to be in scope
let inherent_trait = ty.value.inherent_trait().into_iter();
// if we have `T: Trait` in the param env, the trait doesn't need to be in scope
let traits_from_env = env
.trait_predicates_for_self_ty(&ty.value)
.map(|tr| tr.trait_)
.flat_map(|t| t.all_super_traits(db));
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let traits = inherent_trait
.chain(traits_from_env)
.chain(resolver.traits_in_scope(db).into_iter().map(Trait::from));
'traits: for t in traits {
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let data = db.trait_data(t.id);
// 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() {
if !is_valid_candidate(db, name, mode, item.into()) {
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continue;
}
if !known_implemented {
let goal = generic_implements_goal(db, env.clone(), t, ty.clone());
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if db.trait_solve(krate.into(), goal).is_none() {
continue 'traits;
}
}
known_implemented = true;
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if let Some(result) = callback(&ty.value, item.into()) {
return Some(result);
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}
}
}
None
}
fn iterate_inherent_methods<T>(
ty: &Canonical<Ty>,
db: &impl HirDatabase,
name: Option<&Name>,
mode: LookupMode,
krate: Crate,
mut callback: impl FnMut(&Ty, AssocItem) -> Option<T>,
) -> Option<T> {
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for krate in def_crates(db, krate, &ty.value)? {
let impls = db.impls_in_crate(krate);
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for impl_block in impls.lookup_impl_blocks(&ty.value) {
for item in impl_block.items(db) {
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if !is_valid_candidate(db, name, mode, item) {
continue;
}
if let Some(result) = callback(&ty.value, item) {
return Some(result);
}
}
}
}
None
}
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fn is_valid_candidate(
db: &impl HirDatabase,
name: Option<&Name>,
mode: LookupMode,
item: AssocItem,
) -> bool {
match item {
AssocItem::Function(m) => {
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let data = db.function_data(m.id);
name.map_or(true, |name| data.name == *name)
&& (data.has_self_param || mode == LookupMode::Path)
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}
AssocItem::Const(c) => {
name.map_or(true, |name| Some(name) == c.name(db).as_ref())
&& (mode == LookupMode::Path)
}
_ => false,
}
}
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pub(crate) fn implements_trait(
ty: &Canonical<Ty>,
db: &impl HirDatabase,
resolver: &Resolver,
krate: Crate,
trait_: Trait,
) -> bool {
if ty.value.inherent_trait() == Some(trait_) {
// FIXME this is a bit of a hack, since Chalk should say the same thing
// anyway, but currently Chalk doesn't implement `dyn/impl Trait` yet
return true;
}
let env = TraitEnvironment::lower(db, resolver);
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let goal = generic_implements_goal(db, env, trait_, ty.clone());
let solution = db.trait_solve(krate, goal);
solution.is_some()
}
impl Ty {
// This would be nicer if it just returned an iterator, but that runs into
// lifetime problems, because we need to borrow temp `CrateImplBlocks`.
pub fn iterate_impl_items<T>(
self,
db: &impl HirDatabase,
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krate: Crate,
mut callback: impl FnMut(AssocItem) -> Option<T>,
) -> Option<T> {
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for krate in def_crates(db, krate, &self)? {
let impls = db.impls_in_crate(krate);
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for impl_block in impls.lookup_impl_blocks(&self) {
for item in impl_block.items(db) {
if let Some(result) = callback(item) {
return Some(result);
}
}
}
}
None
}
}
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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: &impl HirDatabase,
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env: Arc<TraitEnvironment>,
trait_: Trait,
self_ty: Canonical<Ty>,
) -> Canonical<InEnvironment<super::Obligation>> {
let num_vars = self_ty.num_vars;
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let substs = super::Substs::build_for_def(db, trait_.id)
.push(self_ty.value)
.fill_with_bound_vars(num_vars as u32)
.build();
let num_vars = substs.len() - 1 + self_ty.num_vars;
let trait_ref = TraitRef { trait_, substs };
let obligation = super::Obligation::Trait(trait_ref);
Canonical { num_vars, value: InEnvironment::new(env, obligation) }
}