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|
//! The type system. We currently use this to infer types for completion, hover
//! information and various assists.
#[allow(unused)]
macro_rules! eprintln {
($($tt:tt)*) => { stdx::eprintln!($($tt)*) };
}
mod autoderef;
pub mod primitive;
pub mod traits;
pub mod method_resolution;
mod op;
mod lower;
pub(crate) mod infer;
pub(crate) mod utils;
mod chalk_cast;
mod chalk_ext;
mod builder;
mod walk;
mod types;
pub mod display;
pub mod db;
pub mod diagnostics;
#[cfg(test)]
mod tests;
#[cfg(test)]
mod test_db;
use std::sync::Arc;
use itertools::Itertools;
use smallvec::SmallVec;
use base_db::salsa;
use hir_def::{
expr::ExprId, type_ref::Rawness, AssocContainerId, FunctionId, GenericDefId, HasModule, Lookup,
TraitId, TypeAliasId, TypeParamId,
};
use crate::{db::HirDatabase, display::HirDisplay, utils::generics};
pub use autoderef::autoderef;
pub use builder::TyBuilder;
pub use chalk_ext::TyExt;
pub use infer::{could_unify, InferenceResult, InferenceVar};
pub use lower::{
associated_type_shorthand_candidates, callable_item_sig, CallableDefId, ImplTraitLoweringMode,
TyDefId, TyLoweringContext, ValueTyDefId,
};
pub use traits::TraitEnvironment;
pub use types::*;
pub use walk::TypeWalk;
pub use chalk_ir::{
cast::Cast, AdtId, BoundVar, DebruijnIndex, Mutability, Safety, Scalar, TyVariableKind,
};
pub use crate::traits::chalk::Interner;
pub type ForeignDefId = chalk_ir::ForeignDefId<Interner>;
pub type AssocTypeId = chalk_ir::AssocTypeId<Interner>;
pub type FnDefId = chalk_ir::FnDefId<Interner>;
pub type ClosureId = chalk_ir::ClosureId<Interner>;
pub type OpaqueTyId = chalk_ir::OpaqueTyId<Interner>;
pub type PlaceholderIndex = chalk_ir::PlaceholderIndex;
pub type CanonicalVarKinds = chalk_ir::CanonicalVarKinds<Interner>;
pub type ChalkTraitId = chalk_ir::TraitId<Interner>;
impl ProjectionTy {
pub fn trait_ref(&self, db: &dyn HirDatabase) -> TraitRef {
TraitRef {
trait_id: to_chalk_trait_id(self.trait_(db)),
substitution: self.substitution.clone(),
}
}
pub fn self_type_parameter(&self) -> &Ty {
&self.substitution.interned()[0].assert_ty_ref(&Interner)
}
fn trait_(&self, db: &dyn HirDatabase) -> TraitId {
match from_assoc_type_id(self.associated_ty_id).lookup(db.upcast()).container {
AssocContainerId::TraitId(it) => it,
_ => panic!("projection ty without parent trait"),
}
}
}
pub type FnSig = chalk_ir::FnSig<Interner>;
impl Substitution {
pub fn single(ty: Ty) -> Substitution {
Substitution::intern({
let mut v = SmallVec::new();
v.push(ty.cast(&Interner));
v
})
}
pub fn prefix(&self, n: usize) -> Substitution {
Substitution::intern(self.interned()[..std::cmp::min(self.len(&Interner), n)].into())
}
pub fn suffix(&self, n: usize) -> Substitution {
Substitution::intern(
self.interned()[self.len(&Interner) - std::cmp::min(self.len(&Interner), n)..].into(),
)
}
}
/// Return an index of a parameter in the generic type parameter list by it's id.
pub fn param_idx(db: &dyn HirDatabase, id: TypeParamId) -> Option<usize> {
generics(db.upcast(), id.parent).param_idx(id)
}
impl<T> Binders<T> {
pub fn new(num_binders: usize, value: T) -> Self {
Self { num_binders, value }
}
pub fn wrap_empty(value: T) -> Self
where
T: TypeWalk,
{
Self { num_binders: 0, value: value.shift_bound_vars(DebruijnIndex::ONE) }
}
pub fn as_ref(&self) -> Binders<&T> {
Binders { num_binders: self.num_binders, value: &self.value }
}
pub fn map<U>(self, f: impl FnOnce(T) -> U) -> Binders<U> {
Binders { num_binders: self.num_binders, value: f(self.value) }
}
pub fn filter_map<U>(self, f: impl FnOnce(T) -> Option<U>) -> Option<Binders<U>> {
Some(Binders { num_binders: self.num_binders, value: f(self.value)? })
}
pub fn skip_binders(&self) -> &T {
&self.value
}
pub fn into_value_and_skipped_binders(self) -> (T, usize) {
(self.value, self.num_binders)
}
}
impl<T: Clone> Binders<&T> {
pub fn cloned(&self) -> Binders<T> {
Binders { num_binders: self.num_binders, value: self.value.clone() }
}
}
impl<T: TypeWalk> Binders<T> {
/// Substitutes all variables.
pub fn subst(self, subst: &Substitution) -> T {
assert_eq!(subst.len(&Interner), self.num_binders);
self.value.subst_bound_vars(subst)
}
}
impl TraitRef {
pub fn self_type_parameter(&self) -> &Ty {
&self.substitution.at(&Interner, 0).assert_ty_ref(&Interner)
}
pub fn hir_trait_id(&self) -> TraitId {
from_chalk_trait_id(self.trait_id)
}
}
impl WhereClause {
pub fn is_implemented(&self) -> bool {
matches!(self, WhereClause::Implemented(_))
}
pub fn trait_ref(&self, db: &dyn HirDatabase) -> Option<TraitRef> {
match self {
WhereClause::Implemented(tr) => Some(tr.clone()),
WhereClause::AliasEq(AliasEq { alias: AliasTy::Projection(proj), .. }) => {
Some(proj.trait_ref(db))
}
WhereClause::AliasEq(_) => None,
}
}
}
impl<T> Canonical<T> {
pub fn new(value: T, kinds: impl IntoIterator<Item = TyVariableKind>) -> Self {
let kinds = kinds.into_iter().map(|tk| {
chalk_ir::CanonicalVarKind::new(
chalk_ir::VariableKind::Ty(tk),
chalk_ir::UniverseIndex::ROOT,
)
});
Self { value, binders: chalk_ir::CanonicalVarKinds::from_iter(&Interner, kinds) }
}
}
/// A function signature as seen by type inference: Several parameter types and
/// one return type.
#[derive(Clone, PartialEq, Eq, Debug)]
pub struct CallableSig {
params_and_return: Arc<[Ty]>,
is_varargs: bool,
}
/// A polymorphic function signature.
pub type PolyFnSig = Binders<CallableSig>;
impl CallableSig {
pub fn from_params_and_return(mut params: Vec<Ty>, ret: Ty, is_varargs: bool) -> CallableSig {
params.push(ret);
CallableSig { params_and_return: params.into(), is_varargs }
}
pub fn from_fn_ptr(fn_ptr: &FnPointer) -> CallableSig {
CallableSig {
// FIXME: what to do about lifetime params? -> return PolyFnSig
params_and_return: fn_ptr
.substs
.clone()
.shift_bound_vars_out(DebruijnIndex::ONE)
.interned()
.iter()
.map(|arg| arg.assert_ty_ref(&Interner).clone())
.collect(),
is_varargs: fn_ptr.sig.variadic,
}
}
pub fn params(&self) -> &[Ty] {
&self.params_and_return[0..self.params_and_return.len() - 1]
}
pub fn ret(&self) -> &Ty {
&self.params_and_return[self.params_and_return.len() - 1]
}
}
impl Ty {
pub fn as_reference(&self) -> Option<(&Ty, Mutability)> {
match self.kind(&Interner) {
TyKind::Ref(mutability, ty) => Some((ty, *mutability)),
_ => None,
}
}
pub fn as_reference_or_ptr(&self) -> Option<(&Ty, Rawness, Mutability)> {
match self.kind(&Interner) {
TyKind::Ref(mutability, ty) => Some((ty, Rawness::Ref, *mutability)),
TyKind::Raw(mutability, ty) => Some((ty, Rawness::RawPtr, *mutability)),
_ => None,
}
}
pub fn strip_references(&self) -> &Ty {
let mut t: &Ty = self;
while let TyKind::Ref(_mutability, ty) = t.kind(&Interner) {
t = ty;
}
t
}
pub fn as_adt(&self) -> Option<(hir_def::AdtId, &Substitution)> {
match self.kind(&Interner) {
TyKind::Adt(AdtId(adt), parameters) => Some((*adt, parameters)),
_ => None,
}
}
pub fn as_tuple(&self) -> Option<&Substitution> {
match self.kind(&Interner) {
TyKind::Tuple(_, substs) => Some(substs),
_ => None,
}
}
pub fn as_generic_def(&self, db: &dyn HirDatabase) -> Option<GenericDefId> {
match *self.kind(&Interner) {
TyKind::Adt(AdtId(adt), ..) => Some(adt.into()),
TyKind::FnDef(callable, ..) => {
Some(db.lookup_intern_callable_def(callable.into()).into())
}
TyKind::AssociatedType(type_alias, ..) => Some(from_assoc_type_id(type_alias).into()),
TyKind::ForeignType(type_alias, ..) => Some(from_foreign_def_id(type_alias).into()),
_ => None,
}
}
pub fn is_never(&self) -> bool {
matches!(self.kind(&Interner), TyKind::Never)
}
pub fn is_unknown(&self) -> bool {
matches!(self.kind(&Interner), TyKind::Unknown)
}
pub fn equals_ctor(&self, other: &Ty) -> bool {
match (self.kind(&Interner), other.kind(&Interner)) {
(TyKind::Adt(adt, ..), TyKind::Adt(adt2, ..)) => adt == adt2,
(TyKind::Slice(_), TyKind::Slice(_)) | (TyKind::Array(_), TyKind::Array(_)) => true,
(TyKind::FnDef(def_id, ..), TyKind::FnDef(def_id2, ..)) => def_id == def_id2,
(TyKind::OpaqueType(ty_id, ..), TyKind::OpaqueType(ty_id2, ..)) => ty_id == ty_id2,
(TyKind::AssociatedType(ty_id, ..), TyKind::AssociatedType(ty_id2, ..)) => {
ty_id == ty_id2
}
(TyKind::ForeignType(ty_id, ..), TyKind::ForeignType(ty_id2, ..)) => ty_id == ty_id2,
(TyKind::Closure(id1, _), TyKind::Closure(id2, _)) => id1 == id2,
(TyKind::Ref(mutability, ..), TyKind::Ref(mutability2, ..))
| (TyKind::Raw(mutability, ..), TyKind::Raw(mutability2, ..)) => {
mutability == mutability2
}
(
TyKind::Function(FnPointer { num_args, sig, .. }),
TyKind::Function(FnPointer { num_args: num_args2, sig: sig2, .. }),
) => num_args == num_args2 && sig == sig2,
(TyKind::Tuple(cardinality, _), TyKind::Tuple(cardinality2, _)) => {
cardinality == cardinality2
}
(TyKind::Str, TyKind::Str) | (TyKind::Never, TyKind::Never) => true,
(TyKind::Scalar(scalar), TyKind::Scalar(scalar2)) => scalar == scalar2,
_ => false,
}
}
/// If this is a `dyn Trait` type, this returns the `Trait` part.
fn dyn_trait_ref(&self) -> Option<&TraitRef> {
match self.kind(&Interner) {
TyKind::Dyn(dyn_ty) => {
dyn_ty.bounds.value.interned().get(0).and_then(|b| match b.skip_binders() {
WhereClause::Implemented(trait_ref) => Some(trait_ref),
_ => None,
})
}
_ => None,
}
}
/// If this is a `dyn Trait`, returns that trait.
pub fn dyn_trait(&self) -> Option<TraitId> {
self.dyn_trait_ref().map(|it| it.trait_id).map(from_chalk_trait_id)
}
fn builtin_deref(&self) -> Option<Ty> {
match self.kind(&Interner) {
TyKind::Ref(.., ty) => Some(ty.clone()),
TyKind::Raw(.., ty) => Some(ty.clone()),
_ => None,
}
}
pub fn callable_def(&self, db: &dyn HirDatabase) -> Option<CallableDefId> {
match self.kind(&Interner) {
&TyKind::FnDef(def, ..) => Some(db.lookup_intern_callable_def(def.into())),
_ => None,
}
}
pub fn as_fn_def(&self, db: &dyn HirDatabase) -> Option<FunctionId> {
if let Some(CallableDefId::FunctionId(func)) = self.callable_def(db) {
Some(func)
} else {
None
}
}
pub fn callable_sig(&self, db: &dyn HirDatabase) -> Option<CallableSig> {
match self.kind(&Interner) {
TyKind::Function(fn_ptr) => Some(CallableSig::from_fn_ptr(fn_ptr)),
TyKind::FnDef(def, parameters) => {
let callable_def = db.lookup_intern_callable_def((*def).into());
let sig = db.callable_item_signature(callable_def);
Some(sig.subst(¶meters))
}
TyKind::Closure(.., substs) => {
let sig_param = substs.at(&Interner, 0).assert_ty_ref(&Interner);
sig_param.callable_sig(db)
}
_ => None,
}
}
/// Returns the type parameters of this type if it has some (i.e. is an ADT
/// or function); so if `self` is `Option<u32>`, this returns the `u32`.
pub fn substs(&self) -> Option<&Substitution> {
match self.kind(&Interner) {
TyKind::Adt(_, substs)
| TyKind::FnDef(_, substs)
| TyKind::Function(FnPointer { substs, .. })
| TyKind::Tuple(_, substs)
| TyKind::OpaqueType(_, substs)
| TyKind::AssociatedType(_, substs)
| TyKind::Closure(.., substs) => Some(substs),
_ => None,
}
}
fn substs_mut(&mut self) -> Option<&mut Substitution> {
match self.interned_mut() {
TyKind::Adt(_, substs)
| TyKind::FnDef(_, substs)
| TyKind::Function(FnPointer { substs, .. })
| TyKind::Tuple(_, substs)
| TyKind::OpaqueType(_, substs)
| TyKind::AssociatedType(_, substs)
| TyKind::Closure(.., substs) => Some(substs),
_ => None,
}
}
pub fn impl_trait_bounds(&self, db: &dyn HirDatabase) -> Option<Vec<QuantifiedWhereClause>> {
match self.kind(&Interner) {
TyKind::OpaqueType(opaque_ty_id, ..) => {
match db.lookup_intern_impl_trait_id((*opaque_ty_id).into()) {
ImplTraitId::AsyncBlockTypeImplTrait(def, _expr) => {
let krate = def.module(db.upcast()).krate();
if let Some(future_trait) = db
.lang_item(krate, "future_trait".into())
.and_then(|item| item.as_trait())
{
// This is only used by type walking.
// Parameters will be walked outside, and projection predicate is not used.
// So just provide the Future trait.
let impl_bound = Binders::new(
0,
WhereClause::Implemented(TraitRef {
trait_id: to_chalk_trait_id(future_trait),
substitution: Substitution::empty(&Interner),
}),
);
Some(vec![impl_bound])
} else {
None
}
}
ImplTraitId::ReturnTypeImplTrait(..) => None,
}
}
TyKind::Alias(AliasTy::Opaque(opaque_ty)) => {
let predicates = match db.lookup_intern_impl_trait_id(opaque_ty.opaque_ty_id.into())
{
ImplTraitId::ReturnTypeImplTrait(func, idx) => {
db.return_type_impl_traits(func).map(|it| {
let data = (*it)
.as_ref()
.map(|rpit| rpit.impl_traits[idx as usize].bounds.clone());
data.subst(&opaque_ty.substitution)
})
}
// It always has an parameter for Future::Output type.
ImplTraitId::AsyncBlockTypeImplTrait(..) => unreachable!(),
};
predicates.map(|it| it.value)
}
TyKind::Placeholder(idx) => {
let id = from_placeholder_idx(db, *idx);
let generic_params = db.generic_params(id.parent);
let param_data = &generic_params.types[id.local_id];
match param_data.provenance {
hir_def::generics::TypeParamProvenance::ArgumentImplTrait => {
let substs = TyBuilder::type_params_subst(db, id.parent);
let predicates = db
.generic_predicates(id.parent)
.into_iter()
.map(|pred| pred.clone().subst(&substs))
.filter(|wc| match &wc.skip_binders() {
WhereClause::Implemented(tr) => tr.self_type_parameter() == self,
WhereClause::AliasEq(AliasEq {
alias: AliasTy::Projection(proj),
ty: _,
}) => proj.self_type_parameter() == self,
_ => false,
})
.collect_vec();
Some(predicates)
}
_ => None,
}
}
_ => None,
}
}
pub fn associated_type_parent_trait(&self, db: &dyn HirDatabase) -> Option<TraitId> {
match self.kind(&Interner) {
TyKind::AssociatedType(id, ..) => {
match from_assoc_type_id(*id).lookup(db.upcast()).container {
AssocContainerId::TraitId(trait_id) => Some(trait_id),
_ => None,
}
}
TyKind::Alias(AliasTy::Projection(projection_ty)) => {
match from_assoc_type_id(projection_ty.associated_ty_id)
.lookup(db.upcast())
.container
{
AssocContainerId::TraitId(trait_id) => Some(trait_id),
_ => None,
}
}
_ => None,
}
}
}
#[derive(Copy, Clone, PartialEq, Eq, Debug, Hash)]
pub enum ImplTraitId {
ReturnTypeImplTrait(hir_def::FunctionId, u16),
AsyncBlockTypeImplTrait(hir_def::DefWithBodyId, ExprId),
}
#[derive(Clone, PartialEq, Eq, Debug, Hash)]
pub struct ReturnTypeImplTraits {
pub(crate) impl_traits: Vec<ReturnTypeImplTrait>,
}
#[derive(Clone, PartialEq, Eq, Debug, Hash)]
pub(crate) struct ReturnTypeImplTrait {
pub(crate) bounds: Binders<Vec<QuantifiedWhereClause>>,
}
pub fn to_foreign_def_id(id: TypeAliasId) -> ForeignDefId {
chalk_ir::ForeignDefId(salsa::InternKey::as_intern_id(&id))
}
pub fn from_foreign_def_id(id: ForeignDefId) -> TypeAliasId {
salsa::InternKey::from_intern_id(id.0)
}
pub fn to_assoc_type_id(id: TypeAliasId) -> AssocTypeId {
chalk_ir::AssocTypeId(salsa::InternKey::as_intern_id(&id))
}
pub fn from_assoc_type_id(id: AssocTypeId) -> TypeAliasId {
salsa::InternKey::from_intern_id(id.0)
}
pub fn from_placeholder_idx(db: &dyn HirDatabase, idx: PlaceholderIndex) -> TypeParamId {
assert_eq!(idx.ui, chalk_ir::UniverseIndex::ROOT);
let interned_id = salsa::InternKey::from_intern_id(salsa::InternId::from(idx.idx));
db.lookup_intern_type_param_id(interned_id)
}
pub fn to_placeholder_idx(db: &dyn HirDatabase, id: TypeParamId) -> PlaceholderIndex {
let interned_id = db.intern_type_param_id(id);
PlaceholderIndex {
ui: chalk_ir::UniverseIndex::ROOT,
idx: salsa::InternKey::as_intern_id(&interned_id).as_usize(),
}
}
pub fn to_chalk_trait_id(id: TraitId) -> ChalkTraitId {
chalk_ir::TraitId(salsa::InternKey::as_intern_id(&id))
}
pub fn from_chalk_trait_id(id: ChalkTraitId) -> TraitId {
salsa::InternKey::from_intern_id(id.0)
}
|