//! Utilities for working with generics. //! //! The layout for generics as expected by chalk are as follows: //! - Optional Self parameter //! - Type or Const parameters //! - Lifetime parameters //! - Parent parameters //! //! where parent follows the same scheme. use std::ops; use chalk_ir::{cast::Cast as _, BoundVar, DebruijnIndex}; use hir_def::{ db::DefDatabase, generics::{ GenericParamDataRef, GenericParams, LifetimeParamData, TypeOrConstParamData, TypeParamProvenance, }, ConstParamId, GenericDefId, GenericParamId, ItemContainerId, LifetimeParamId, LocalLifetimeParamId, LocalTypeOrConstParamId, Lookup, TypeOrConstParamId, TypeParamId, }; use intern::Interned; use stdx::TupleExt; use crate::{db::HirDatabase, lt_to_placeholder_idx, to_placeholder_idx, Interner, Substitution}; pub(crate) fn generics(db: &dyn DefDatabase, def: GenericDefId) -> Generics { let parent_generics = parent_generic_def(db, def).map(|def| Box::new(generics(db, def))); Generics { def, params: db.generic_params(def), parent_generics } } #[derive(Clone, Debug)] pub(crate) struct Generics { def: GenericDefId, params: Interned, parent_generics: Option>, } impl ops::Index for Generics where GenericParams: ops::Index, { type Output = >::Output; fn index(&self, index: T) -> &Self::Output { &self.params[index] } } impl Generics { pub(crate) fn def(&self) -> GenericDefId { self.def } pub(crate) fn iter_id(&self) -> impl Iterator + '_ { self.iter_self_id().chain(self.iter_parent_id()) } pub(crate) fn iter_self_id(&self) -> impl Iterator + '_ { self.iter_self().map(|(id, _)| id) } pub(crate) fn iter_parent_id(&self) -> impl Iterator + '_ { self.iter_parent().map(|(id, _)| id) } pub(crate) fn iter_self_type_or_consts( &self, ) -> impl DoubleEndedIterator { self.params.iter_type_or_consts() } pub(crate) fn iter_self_type_or_consts_id( &self, ) -> impl DoubleEndedIterator + '_ { self.params.iter_type_or_consts().map(from_toc_id(self)).map(TupleExt::head) } pub(crate) fn iter_self_lt_id(&self) -> impl DoubleEndedIterator + '_ { self.params.iter_lt().map(from_lt_id(self)).map(TupleExt::head) } /// Iterate over the params followed by the parent params. pub(crate) fn iter( &self, ) -> impl DoubleEndedIterator)> + '_ { self.iter_self().chain(self.iter_parent()) } /// Iterate over the params without parent params. pub(crate) fn iter_self( &self, ) -> impl DoubleEndedIterator)> + '_ { self.params .iter_type_or_consts() .map(from_toc_id(self)) .chain(self.params.iter_lt().map(from_lt_id(self))) } /// Iterator over types and const params of parent. fn iter_parent( &self, ) -> impl DoubleEndedIterator)> + '_ { self.parent_generics().into_iter().flat_map(|it| { let lt_iter = it.params.iter_lt().map(from_lt_id(it)); it.params.iter_type_or_consts().map(from_toc_id(it)).chain(lt_iter) }) } /// Returns total number of generic parameters in scope, including those from parent. pub(crate) fn len(&self) -> usize { let parent = self.parent_generics().map_or(0, Generics::len); let child = self.params.len(); parent + child } /// Returns numbers of generic parameters excluding those from parent. pub(crate) fn len_self(&self) -> usize { self.params.len() } /// (parent total, self param, type params, const params, impl trait list, lifetimes) pub(crate) fn provenance_split(&self) -> (usize, bool, usize, usize, usize, usize) { let mut self_param = false; let mut type_params = 0; let mut impl_trait_params = 0; let mut const_params = 0; self.params.iter_type_or_consts().for_each(|(_, data)| match data { TypeOrConstParamData::TypeParamData(p) => match p.provenance { TypeParamProvenance::TypeParamList => type_params += 1, TypeParamProvenance::TraitSelf => self_param |= true, TypeParamProvenance::ArgumentImplTrait => impl_trait_params += 1, }, TypeOrConstParamData::ConstParamData(_) => const_params += 1, }); let lifetime_params = self.params.iter_lt().count(); let parent_len = self.parent_generics().map_or(0, Generics::len); (parent_len, self_param, type_params, const_params, impl_trait_params, lifetime_params) } pub(crate) fn type_or_const_param_idx(&self, param: TypeOrConstParamId) -> Option { self.find_type_or_const_param(param) } fn find_type_or_const_param(&self, param: TypeOrConstParamId) -> Option { if param.parent == self.def { let idx = param.local_id.into_raw().into_u32() as usize; debug_assert!(idx <= self.params.type_or_consts.len()); Some(idx) } else { debug_assert_eq!(self.parent_generics().map(|it| it.def), Some(param.parent)); self.parent_generics() .and_then(|g| g.find_type_or_const_param(param)) // Remember that parent parameters come after parameters for self. .map(|idx| self.len_self() + idx) } } pub(crate) fn lifetime_idx(&self, lifetime: LifetimeParamId) -> Option { self.find_lifetime(lifetime) } fn find_lifetime(&self, lifetime: LifetimeParamId) -> Option { if lifetime.parent == self.def { let idx = lifetime.local_id.into_raw().into_u32() as usize; debug_assert!(idx <= self.params.lifetimes.len()); Some(self.params.type_or_consts.len() + idx) } else { debug_assert_eq!(self.parent_generics().map(|it| it.def), Some(lifetime.parent)); self.parent_generics() .and_then(|g| g.find_lifetime(lifetime)) .map(|idx| self.len_self() + idx) } } pub(crate) fn parent_generics(&self) -> Option<&Generics> { self.parent_generics.as_deref() } pub(crate) fn parent_or_self(&self) -> &Generics { self.parent_generics.as_deref().unwrap_or(self) } /// Returns a Substitution that replaces each parameter by a bound variable. pub(crate) fn bound_vars_subst( &self, db: &dyn HirDatabase, debruijn: DebruijnIndex, ) -> Substitution { Substitution::from_iter( Interner, self.iter_id().enumerate().map(|(idx, id)| match id { GenericParamId::ConstParamId(id) => BoundVar::new(debruijn, idx) .to_const(Interner, db.const_param_ty(id)) .cast(Interner), GenericParamId::TypeParamId(_) => { BoundVar::new(debruijn, idx).to_ty(Interner).cast(Interner) } GenericParamId::LifetimeParamId(_) => { BoundVar::new(debruijn, idx).to_lifetime(Interner).cast(Interner) } }), ) } /// Returns a Substitution that replaces each parameter by itself (i.e. `Ty::Param`). pub(crate) fn placeholder_subst(&self, db: &dyn HirDatabase) -> Substitution { Substitution::from_iter( Interner, self.iter_id().map(|id| match id { GenericParamId::TypeParamId(id) => { to_placeholder_idx(db, id.into()).to_ty(Interner).cast(Interner) } GenericParamId::ConstParamId(id) => to_placeholder_idx(db, id.into()) .to_const(Interner, db.const_param_ty(id)) .cast(Interner), GenericParamId::LifetimeParamId(id) => { lt_to_placeholder_idx(db, id).to_lifetime(Interner).cast(Interner) } }), ) } } fn parent_generic_def(db: &dyn DefDatabase, def: GenericDefId) -> Option { let container = match def { GenericDefId::FunctionId(it) => it.lookup(db).container, GenericDefId::TypeAliasId(it) => it.lookup(db).container, GenericDefId::ConstId(it) => it.lookup(db).container, GenericDefId::AdtId(_) | GenericDefId::TraitId(_) | GenericDefId::ImplId(_) | GenericDefId::TraitAliasId(_) => return None, }; match container { ItemContainerId::ImplId(it) => Some(it.into()), ItemContainerId::TraitId(it) => Some(it.into()), ItemContainerId::ModuleId(_) | ItemContainerId::ExternBlockId(_) => None, } } fn from_toc_id<'a>( it: &'a Generics, ) -> impl Fn( (LocalTypeOrConstParamId, &'a TypeOrConstParamData), ) -> (GenericParamId, GenericParamDataRef<'a>) { move |(local_id, p): (_, _)| { let id = TypeOrConstParamId { parent: it.def, local_id }; match p { TypeOrConstParamData::TypeParamData(p) => ( GenericParamId::TypeParamId(TypeParamId::from_unchecked(id)), GenericParamDataRef::TypeParamData(p), ), TypeOrConstParamData::ConstParamData(p) => ( GenericParamId::ConstParamId(ConstParamId::from_unchecked(id)), GenericParamDataRef::ConstParamData(p), ), } } } fn from_lt_id<'a>( it: &'a Generics, ) -> impl Fn((LocalLifetimeParamId, &'a LifetimeParamData)) -> (GenericParamId, GenericParamDataRef<'a>) { move |(local_id, p): (_, _)| { ( GenericParamId::LifetimeParamId(LifetimeParamId { parent: it.def, local_id }), GenericParamDataRef::LifetimeParamData(p), ) } }