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//! Conversion code from/to Chalk.
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use std ::{ fmt , sync ::Arc } ;
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use log ::debug ;
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use chalk_ir ::{ cast ::Cast , Goal , GoalData , Parameter , PlaceholderIndex , TypeName , UniverseIndex } ;
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use hir_def ::{ AssocContainerId , AssocItemId , GenericDefId , HasModule , Lookup , TypeAliasId } ;
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use ra_db ::{
salsa ::{ InternId , InternKey } ,
CrateId ,
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} ;
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use super ::{ builtin , AssocTyValue , Canonical , ChalkContext , Impl , Obligation } ;
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use crate ::{
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db ::HirDatabase , display ::HirDisplay , utils ::generics , ApplicationTy , GenericPredicate ,
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ProjectionTy , Substs , TraitRef , Ty , TypeCtor ,
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} ;
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#[ derive(Debug, Copy, Clone, Hash, PartialOrd, Ord, PartialEq, Eq) ]
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pub struct Interner ;
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impl chalk_ir ::interner ::Interner for Interner {
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type InternedType = Box < chalk_ir ::TyData < Self > > ;
type InternedLifetime = chalk_ir ::LifetimeData < Self > ;
type InternedParameter = chalk_ir ::ParameterData < Self > ;
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type InternedGoal = Arc < GoalData < Self > > ;
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type InternedGoals = Vec < Goal < Self > > ;
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type InternedSubstitution = Vec < Parameter < Self > > ;
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type Identifier = TypeAliasId ;
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type DefId = InternId ;
// FIXME: implement these
fn debug_struct_id (
_type_kind_id : chalk_ir ::StructId < Self > ,
_fmt : & mut fmt ::Formatter < '_ > ,
) -> Option < fmt ::Result > {
None
}
fn debug_trait_id (
_type_kind_id : chalk_ir ::TraitId < Self > ,
_fmt : & mut fmt ::Formatter < '_ > ,
) -> Option < fmt ::Result > {
None
}
fn debug_assoc_type_id (
_id : chalk_ir ::AssocTypeId < Self > ,
_fmt : & mut fmt ::Formatter < '_ > ,
) -> Option < fmt ::Result > {
None
}
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fn debug_alias (
_projection : & chalk_ir ::AliasTy < Self > ,
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_fmt : & mut fmt ::Formatter < '_ > ,
) -> Option < fmt ::Result > {
None
}
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fn intern_ty ( & self , ty : chalk_ir ::TyData < Self > ) -> Box < chalk_ir ::TyData < Self > > {
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Box ::new ( ty )
}
fn ty_data ( ty : & Box < chalk_ir ::TyData < Self > > ) -> & chalk_ir ::TyData < Self > {
ty
}
fn intern_lifetime ( lifetime : chalk_ir ::LifetimeData < Self > ) -> chalk_ir ::LifetimeData < Self > {
lifetime
}
fn lifetime_data ( lifetime : & chalk_ir ::LifetimeData < Self > ) -> & chalk_ir ::LifetimeData < Self > {
lifetime
}
fn intern_parameter ( parameter : chalk_ir ::ParameterData < Self > ) -> chalk_ir ::ParameterData < Self > {
parameter
}
fn parameter_data ( parameter : & chalk_ir ::ParameterData < Self > ) -> & chalk_ir ::ParameterData < Self > {
parameter
}
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fn intern_goal ( goal : GoalData < Self > ) -> Arc < GoalData < Self > > {
Arc ::new ( goal )
}
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fn intern_goals ( data : impl IntoIterator < Item = Goal < Self > > ) -> Self ::InternedGoals {
data . into_iter ( ) . collect ( )
}
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fn goal_data ( goal : & Arc < GoalData < Self > > ) -> & GoalData < Self > {
goal
}
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fn goals_data ( goals : & Vec < Goal < Interner > > ) -> & [ Goal < Interner > ] {
goals
}
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fn intern_substitution < E > (
data : impl IntoIterator < Item = Result < Parameter < Self > , E > > ,
) -> Result < Vec < Parameter < Self > > , E > {
data . into_iter ( ) . collect ( )
}
fn substitution_data ( substitution : & Vec < Parameter < Self > > ) -> & [ Parameter < Self > ] {
substitution
}
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}
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impl chalk_ir ::interner ::HasInterner for Interner {
type Interner = Self ;
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}
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pub type AssocTypeId = chalk_ir ::AssocTypeId < Interner > ;
pub type AssociatedTyDatum = chalk_rust_ir ::AssociatedTyDatum < Interner > ;
pub type TraitId = chalk_ir ::TraitId < Interner > ;
pub type TraitDatum = chalk_rust_ir ::TraitDatum < Interner > ;
pub type StructId = chalk_ir ::StructId < Interner > ;
pub type StructDatum = chalk_rust_ir ::StructDatum < Interner > ;
pub type ImplId = chalk_ir ::ImplId < Interner > ;
pub type ImplDatum = chalk_rust_ir ::ImplDatum < Interner > ;
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pub type AssociatedTyValueId = chalk_rust_ir ::AssociatedTyValueId < Interner > ;
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pub type AssociatedTyValue = chalk_rust_ir ::AssociatedTyValue < Interner > ;
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pub ( super ) trait ToChalk {
type Chalk ;
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fn to_chalk ( self , db : & dyn HirDatabase ) -> Self ::Chalk ;
fn from_chalk ( db : & dyn HirDatabase , chalk : Self ::Chalk ) -> Self ;
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}
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pub ( super ) fn from_chalk < T , ChalkT > ( db : & dyn HirDatabase , chalk : ChalkT ) -> T
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where
T : ToChalk < Chalk = ChalkT > ,
{
T ::from_chalk ( db , chalk )
}
impl ToChalk for Ty {
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type Chalk = chalk_ir ::Ty < Interner > ;
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fn to_chalk ( self , db : & dyn HirDatabase ) -> chalk_ir ::Ty < Interner > {
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match self {
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Ty ::Apply ( apply_ty ) = > {
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let name = apply_ty . ctor . to_chalk ( db ) ;
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let substitution = apply_ty . parameters . to_chalk ( db ) ;
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chalk_ir ::ApplicationTy { name , substitution } . cast ( ) . intern ( & Interner )
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}
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Ty ::Projection ( proj_ty ) = > {
let associated_ty_id = proj_ty . associated_ty . to_chalk ( db ) ;
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let substitution = proj_ty . parameters . to_chalk ( db ) ;
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chalk_ir ::AliasTy { associated_ty_id , substitution } . cast ( ) . intern ( & Interner )
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}
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Ty ::Placeholder ( id ) = > {
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let interned_id = db . intern_type_param_id ( id ) ;
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PlaceholderIndex {
ui : UniverseIndex ::ROOT ,
idx : interned_id . as_intern_id ( ) . as_usize ( ) ,
}
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. to_ty ::< Interner > ( & Interner )
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}
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Ty ::Bound ( idx ) = > chalk_ir ::TyData ::BoundVar ( idx as usize ) . intern ( & Interner ) ,
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Ty ::Infer ( _infer_ty ) = > panic! ( " uncanonicalized infer ty " ) ,
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Ty ::Dyn ( predicates ) = > {
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let where_clauses = predicates
. iter ( )
. filter ( | p | ! p . is_error ( ) )
. cloned ( )
. map ( | p | p . to_chalk ( db ) )
. collect ( ) ;
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let bounded_ty = chalk_ir ::DynTy { bounds : make_binders ( where_clauses , 1 ) } ;
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chalk_ir ::TyData ::Dyn ( bounded_ty ) . intern ( & Interner )
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}
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Ty ::Opaque ( _ ) | Ty ::Unknown = > {
let substitution = chalk_ir ::Substitution ::empty ( ) ;
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let name = TypeName ::Error ;
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chalk_ir ::ApplicationTy { name , substitution } . cast ( ) . intern ( & Interner )
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}
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}
}
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fn from_chalk ( db : & dyn HirDatabase , chalk : chalk_ir ::Ty < Interner > ) -> Self {
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match chalk . data ( ) . clone ( ) {
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chalk_ir ::TyData ::Apply ( apply_ty ) = > match apply_ty . name {
TypeName ::Error = > Ty ::Unknown ,
_ = > {
let ctor = from_chalk ( db , apply_ty . name ) ;
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let parameters = from_chalk ( db , apply_ty . substitution ) ;
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Ty ::Apply ( ApplicationTy { ctor , parameters } )
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}
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} ,
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chalk_ir ::TyData ::Placeholder ( idx ) = > {
assert_eq! ( idx . ui , UniverseIndex ::ROOT ) ;
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let interned_id = crate ::db ::GlobalTypeParamId ::from_intern_id (
crate ::salsa ::InternId ::from ( idx . idx ) ,
) ;
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Ty ::Placeholder ( db . lookup_intern_type_param_id ( interned_id ) )
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}
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chalk_ir ::TyData ::Alias ( proj ) = > {
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let associated_ty = from_chalk ( db , proj . associated_ty_id ) ;
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let parameters = from_chalk ( db , proj . substitution ) ;
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Ty ::Projection ( ProjectionTy { associated_ty , parameters } )
}
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chalk_ir ::TyData ::Function ( _ ) = > unimplemented! ( ) ,
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chalk_ir ::TyData ::BoundVar ( idx ) = > Ty ::Bound ( idx as u32 ) ,
chalk_ir ::TyData ::InferenceVar ( _iv ) = > Ty ::Unknown ,
chalk_ir ::TyData ::Dyn ( where_clauses ) = > {
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assert_eq! ( where_clauses . bounds . binders . len ( ) , 1 ) ;
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let predicates =
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where_clauses . bounds . value . into_iter ( ) . map ( | c | from_chalk ( db , c ) ) . collect ( ) ;
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Ty ::Dyn ( predicates )
}
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}
}
}
impl ToChalk for Substs {
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type Chalk = chalk_ir ::Substitution < Interner > ;
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fn to_chalk ( self , db : & dyn HirDatabase ) -> chalk_ir ::Substitution < Interner > {
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chalk_ir ::Substitution ::from ( self . iter ( ) . map ( | ty | ty . clone ( ) . to_chalk ( db ) ) )
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}
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fn from_chalk ( db : & dyn HirDatabase , parameters : chalk_ir ::Substitution < Interner > ) -> Substs {
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let tys = parameters
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. into_iter ( )
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. map ( | p | match p . ty ( ) {
Some ( ty ) = > from_chalk ( db , ty . clone ( ) ) ,
None = > unimplemented! ( ) ,
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} )
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. collect ( ) ;
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Substs ( tys )
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}
}
impl ToChalk for TraitRef {
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type Chalk = chalk_ir ::TraitRef < Interner > ;
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fn to_chalk ( self : TraitRef , db : & dyn HirDatabase ) -> chalk_ir ::TraitRef < Interner > {
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let trait_id = self . trait_ . to_chalk ( db ) ;
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let substitution = self . substs . to_chalk ( db ) ;
chalk_ir ::TraitRef { trait_id , substitution }
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}
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fn from_chalk ( db : & dyn HirDatabase , trait_ref : chalk_ir ::TraitRef < Interner > ) -> Self {
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let trait_ = from_chalk ( db , trait_ref . trait_id ) ;
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let substs = from_chalk ( db , trait_ref . substitution ) ;
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TraitRef { trait_ , substs }
}
}
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impl ToChalk for hir_def ::TraitId {
type Chalk = TraitId ;
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fn to_chalk ( self , _db : & dyn HirDatabase ) -> TraitId {
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chalk_ir ::TraitId ( self . as_intern_id ( ) )
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}
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fn from_chalk ( _db : & dyn HirDatabase , trait_id : TraitId ) -> hir_def ::TraitId {
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InternKey ::from_intern_id ( trait_id . 0 )
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}
}
impl ToChalk for TypeCtor {
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type Chalk = TypeName < Interner > ;
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fn to_chalk ( self , db : & dyn HirDatabase ) -> TypeName < Interner > {
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match self {
TypeCtor ::AssociatedType ( type_alias ) = > {
let type_id = type_alias . to_chalk ( db ) ;
TypeName ::AssociatedType ( type_id )
}
_ = > {
// other TypeCtors get interned and turned into a chalk StructId
let struct_id = db . intern_type_ctor ( self ) . into ( ) ;
TypeName ::Struct ( struct_id )
}
}
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}
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fn from_chalk ( db : & dyn HirDatabase , type_name : TypeName < Interner > ) -> TypeCtor {
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match type_name {
TypeName ::Struct ( struct_id ) = > db . lookup_intern_type_ctor ( struct_id . into ( ) ) ,
TypeName ::AssociatedType ( type_id ) = > TypeCtor ::AssociatedType ( from_chalk ( db , type_id ) ) ,
TypeName ::Error = > {
// this should not be reached, since we don't represent TypeName::Error with TypeCtor
unreachable! ( )
}
}
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}
}
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impl ToChalk for Impl {
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type Chalk = ImplId ;
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fn to_chalk ( self , db : & dyn HirDatabase ) -> ImplId {
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db . intern_chalk_impl ( self ) . into ( )
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}
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fn from_chalk ( db : & dyn HirDatabase , impl_id : ImplId ) -> Impl {
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db . lookup_intern_chalk_impl ( impl_id . into ( ) )
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}
}
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impl ToChalk for TypeAliasId {
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type Chalk = AssocTypeId ;
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fn to_chalk ( self , _db : & dyn HirDatabase ) -> AssocTypeId {
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chalk_ir ::AssocTypeId ( self . as_intern_id ( ) )
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}
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fn from_chalk ( _db : & dyn HirDatabase , type_alias_id : AssocTypeId ) -> TypeAliasId {
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InternKey ::from_intern_id ( type_alias_id . 0 )
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}
}
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impl ToChalk for AssocTyValue {
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type Chalk = AssociatedTyValueId ;
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fn to_chalk ( self , db : & dyn HirDatabase ) -> AssociatedTyValueId {
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db . intern_assoc_ty_value ( self ) . into ( )
}
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fn from_chalk ( db : & dyn HirDatabase , assoc_ty_value_id : AssociatedTyValueId ) -> AssocTyValue {
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db . lookup_intern_assoc_ty_value ( assoc_ty_value_id . into ( ) )
}
}
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impl ToChalk for GenericPredicate {
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type Chalk = chalk_ir ::QuantifiedWhereClause < Interner > ;
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fn to_chalk ( self , db : & dyn HirDatabase ) -> chalk_ir ::QuantifiedWhereClause < Interner > {
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match self {
GenericPredicate ::Implemented ( trait_ref ) = > {
make_binders ( chalk_ir ::WhereClause ::Implemented ( trait_ref . to_chalk ( db ) ) , 0 )
}
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GenericPredicate ::Projection ( projection_pred ) = > make_binders (
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chalk_ir ::WhereClause ::AliasEq ( chalk_ir ::AliasEq {
alias : projection_pred . projection_ty . to_chalk ( db ) ,
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ty : projection_pred . ty . to_chalk ( db ) ,
} ) ,
0 ,
) ,
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GenericPredicate ::Error = > panic! ( " tried passing GenericPredicate::Error to Chalk " ) ,
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}
}
fn from_chalk (
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db : & dyn HirDatabase ,
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where_clause : chalk_ir ::QuantifiedWhereClause < Interner > ,
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) -> GenericPredicate {
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match where_clause . value {
chalk_ir ::WhereClause ::Implemented ( tr ) = > {
GenericPredicate ::Implemented ( from_chalk ( db , tr ) )
}
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chalk_ir ::WhereClause ::AliasEq ( projection_eq ) = > {
let projection_ty = from_chalk ( db , projection_eq . alias ) ;
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let ty = from_chalk ( db , projection_eq . ty ) ;
GenericPredicate ::Projection ( super ::ProjectionPredicate { projection_ty , ty } )
}
}
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}
}
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impl ToChalk for ProjectionTy {
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type Chalk = chalk_ir ::AliasTy < Interner > ;
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fn to_chalk ( self , db : & dyn HirDatabase ) -> chalk_ir ::AliasTy < Interner > {
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chalk_ir ::AliasTy {
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associated_ty_id : self . associated_ty . to_chalk ( db ) ,
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substitution : self . parameters . to_chalk ( db ) ,
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}
}
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fn from_chalk (
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db : & dyn HirDatabase ,
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projection_ty : chalk_ir ::AliasTy < Interner > ,
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) -> ProjectionTy {
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ProjectionTy {
associated_ty : from_chalk ( db , projection_ty . associated_ty_id ) ,
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parameters : from_chalk ( db , projection_ty . substitution ) ,
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}
}
}
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impl ToChalk for super ::ProjectionPredicate {
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type Chalk = chalk_ir ::Normalize < Interner > ;
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fn to_chalk ( self , db : & dyn HirDatabase ) -> chalk_ir ::Normalize < Interner > {
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chalk_ir ::Normalize { alias : self . projection_ty . to_chalk ( db ) , ty : self . ty . to_chalk ( db ) }
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}
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fn from_chalk ( _db : & dyn HirDatabase , _normalize : chalk_ir ::Normalize < Interner > ) -> Self {
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unimplemented! ( )
}
}
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impl ToChalk for Obligation {
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type Chalk = chalk_ir ::DomainGoal < Interner > ;
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fn to_chalk ( self , db : & dyn HirDatabase ) -> chalk_ir ::DomainGoal < Interner > {
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match self {
Obligation ::Trait ( tr ) = > tr . to_chalk ( db ) . cast ( ) ,
Obligation ::Projection ( pr ) = > pr . to_chalk ( db ) . cast ( ) ,
}
}
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fn from_chalk ( _db : & dyn HirDatabase , _goal : chalk_ir ::DomainGoal < Interner > ) -> Self {
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unimplemented! ( )
}
}
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impl < T > ToChalk for Canonical < T >
where
T : ToChalk ,
{
type Chalk = chalk_ir ::Canonical < T ::Chalk > ;
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fn to_chalk ( self , db : & dyn HirDatabase ) -> chalk_ir ::Canonical < T ::Chalk > {
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let parameter = chalk_ir ::ParameterKind ::Ty ( chalk_ir ::UniverseIndex ::ROOT ) ;
let value = self . value . to_chalk ( db ) ;
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chalk_ir ::Canonical { value , binders : vec ! [ parameter ; self . num_vars ] }
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}
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fn from_chalk ( db : & dyn HirDatabase , canonical : chalk_ir ::Canonical < T ::Chalk > ) -> Canonical < T > {
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Canonical { num_vars : canonical . binders . len ( ) , value : from_chalk ( db , canonical . value ) }
}
}
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impl ToChalk for Arc < super ::TraitEnvironment > {
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type Chalk = chalk_ir ::Environment < Interner > ;
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fn to_chalk ( self , db : & dyn HirDatabase ) -> chalk_ir ::Environment < Interner > {
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let mut clauses = Vec ::new ( ) ;
for pred in & self . predicates {
if pred . is_error ( ) {
// for env, we just ignore errors
continue ;
}
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let program_clause : chalk_ir ::ProgramClause < Interner > =
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pred . clone ( ) . to_chalk ( db ) . cast ( ) ;
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clauses . push ( program_clause . into_from_env_clause ( ) ) ;
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}
chalk_ir ::Environment ::new ( ) . add_clauses ( clauses )
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}
fn from_chalk (
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_db : & dyn HirDatabase ,
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_env : chalk_ir ::Environment < Interner > ,
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) -> Arc < super ::TraitEnvironment > {
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unimplemented! ( )
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}
}
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impl < T : ToChalk > ToChalk for super ::InEnvironment < T >
where
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T ::Chalk : chalk_ir ::interner ::HasInterner < Interner = Interner > ,
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{
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type Chalk = chalk_ir ::InEnvironment < T ::Chalk > ;
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fn to_chalk ( self , db : & dyn HirDatabase ) -> chalk_ir ::InEnvironment < T ::Chalk > {
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chalk_ir ::InEnvironment {
environment : self . environment . to_chalk ( db ) ,
goal : self . value . to_chalk ( db ) ,
}
}
fn from_chalk (
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db : & dyn HirDatabase ,
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in_env : chalk_ir ::InEnvironment < T ::Chalk > ,
) -> super ::InEnvironment < T > {
super ::InEnvironment {
environment : from_chalk ( db , in_env . environment ) ,
value : from_chalk ( db , in_env . goal ) ,
}
}
}
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impl ToChalk for builtin ::BuiltinImplData {
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type Chalk = ImplDatum ;
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fn to_chalk ( self , db : & dyn HirDatabase ) -> ImplDatum {
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let impl_type = chalk_rust_ir ::ImplType ::External ;
let where_clauses = self . where_clauses . into_iter ( ) . map ( | w | w . to_chalk ( db ) ) . collect ( ) ;
let impl_datum_bound =
chalk_rust_ir ::ImplDatumBound { trait_ref : self . trait_ref . to_chalk ( db ) , where_clauses } ;
let associated_ty_value_ids =
self . assoc_ty_values . into_iter ( ) . map ( | v | v . to_chalk ( db ) ) . collect ( ) ;
chalk_rust_ir ::ImplDatum {
binders : make_binders ( impl_datum_bound , self . num_vars ) ,
impl_type ,
polarity : chalk_rust_ir ::Polarity ::Positive ,
associated_ty_value_ids ,
}
}
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fn from_chalk ( _db : & dyn HirDatabase , _data : ImplDatum ) -> Self {
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unimplemented! ( )
}
}
impl ToChalk for builtin ::BuiltinImplAssocTyValueData {
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type Chalk = AssociatedTyValue ;
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fn to_chalk ( self , db : & dyn HirDatabase ) -> AssociatedTyValue {
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let value_bound = chalk_rust_ir ::AssociatedTyValueBound { ty : self . value . to_chalk ( db ) } ;
chalk_rust_ir ::AssociatedTyValue {
associated_ty_id : self . assoc_ty_id . to_chalk ( db ) ,
impl_id : self . impl_ . to_chalk ( db ) ,
value : make_binders ( value_bound , self . num_vars ) ,
}
}
fn from_chalk (
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_db : & dyn HirDatabase ,
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_data : AssociatedTyValue ,
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) -> builtin ::BuiltinImplAssocTyValueData {
unimplemented! ( )
}
}
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fn make_binders < T > ( value : T , num_vars : usize ) -> chalk_ir ::Binders < T > {
chalk_ir ::Binders {
value ,
binders : std ::iter ::repeat ( chalk_ir ::ParameterKind ::Ty ( ( ) ) ) . take ( num_vars ) . collect ( ) ,
}
}
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fn convert_where_clauses (
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db : & dyn HirDatabase ,
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def : GenericDefId ,
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substs : & Substs ,
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) -> Vec < chalk_ir ::QuantifiedWhereClause < Interner > > {
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let generic_predicates = db . generic_predicates ( def ) ;
let mut result = Vec ::with_capacity ( generic_predicates . len ( ) ) ;
for pred in generic_predicates . iter ( ) {
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if pred . value . is_error ( ) {
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// skip errored predicates completely
continue ;
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}
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result . push ( pred . clone ( ) . subst ( substs ) . to_chalk ( db ) ) ;
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}
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result
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}
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impl < ' a > chalk_solve ::RustIrDatabase < Interner > for ChalkContext < ' a > {
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fn associated_ty_data ( & self , id : AssocTypeId ) -> Arc < AssociatedTyDatum > {
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self . db . associated_ty_data ( id )
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}
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fn trait_datum ( & self , trait_id : TraitId ) -> Arc < TraitDatum > {
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self . db . trait_datum ( self . krate , trait_id )
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}
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fn struct_datum ( & self , struct_id : StructId ) -> Arc < StructDatum > {
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self . db . struct_datum ( self . krate , struct_id )
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}
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fn impl_datum ( & self , impl_id : ImplId ) -> Arc < ImplDatum > {
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self . db . impl_datum ( self . krate , impl_id )
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}
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fn impls_for_trait (
& self ,
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trait_id : TraitId ,
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parameters : & [ Parameter < Interner > ] ,
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) -> Vec < ImplId > {
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debug! ( " impls_for_trait {:?} " , trait_id ) ;
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let trait_ : hir_def ::TraitId = from_chalk ( self . db , trait_id ) ;
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// Note: Since we're using impls_for_trait, only impls where the trait
// can be resolved should ever reach Chalk. `impl_datum` relies on that
// and will panic if the trait can't be resolved.
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let mut result : Vec < _ > = self
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. db
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. impls_for_trait ( self . krate , trait_ )
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. iter ( )
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. copied ( )
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. map ( Impl ::ImplDef )
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. map ( | impl_ | impl_ . to_chalk ( self . db ) )
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. collect ( ) ;
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let ty : Ty = from_chalk ( self . db , parameters [ 0 ] . assert_ty_ref ( ) . clone ( ) ) ;
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let arg : Option < Ty > =
parameters . get ( 1 ) . map ( | p | from_chalk ( self . db , p . assert_ty_ref ( ) . clone ( ) ) ) ;
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builtin ::get_builtin_impls ( self . db , self . krate , & ty , & arg , trait_ , | i | {
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result . push ( i . to_chalk ( self . db ) )
} ) ;
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debug! ( " impls_for_trait returned {} impls " , result . len ( ) ) ;
result
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}
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fn impl_provided_for ( & self , auto_trait_id : TraitId , struct_id : StructId ) -> bool {
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debug! ( " impl_provided_for {:?}, {:?} " , auto_trait_id , struct_id ) ;
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false // FIXME
}
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fn associated_ty_value ( & self , id : AssociatedTyValueId ) -> Arc < AssociatedTyValue > {
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self . db . associated_ty_value ( self . krate , id )
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}
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fn custom_clauses ( & self ) -> Vec < chalk_ir ::ProgramClause < Interner > > {
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vec! [ ]
}
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fn local_impls_to_coherence_check ( & self , _trait_id : TraitId ) -> Vec < ImplId > {
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// We don't do coherence checking (yet)
unimplemented! ( )
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}
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fn as_struct_id ( & self , id : & TypeName < Interner > ) -> Option < StructId > {
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match id {
TypeName ::Struct ( struct_id ) = > Some ( * struct_id ) ,
_ = > None ,
}
}
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fn interner ( & self ) -> & Interner {
& Interner
}
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}
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pub ( crate ) fn associated_ty_data_query (
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db : & dyn HirDatabase ,
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id : AssocTypeId ,
) -> Arc < AssociatedTyDatum > {
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debug! ( " associated_ty_data {:?} " , id ) ;
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let type_alias : TypeAliasId = from_chalk ( db , id ) ;
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let trait_ = match type_alias . lookup ( db . upcast ( ) ) . container {
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AssocContainerId ::TraitId ( t ) = > t ,
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_ = > panic! ( " associated type not in trait " ) ,
} ;
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let generic_params = generics ( db . upcast ( ) , type_alias . into ( ) ) ;
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let bound_data = chalk_rust_ir ::AssociatedTyDatumBound {
// FIXME add bounds and where clauses
bounds : vec ! [ ] ,
where_clauses : vec ! [ ] ,
} ;
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let datum = AssociatedTyDatum {
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trait_id : trait_ . to_chalk ( db ) ,
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id ,
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name : type_alias ,
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binders : make_binders ( bound_data , generic_params . len ( ) ) ,
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} ;
Arc ::new ( datum )
}
pub ( crate ) fn trait_datum_query (
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db : & dyn HirDatabase ,
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krate : CrateId ,
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trait_id : TraitId ,
) -> Arc < TraitDatum > {
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debug! ( " trait_datum {:?} " , trait_id ) ;
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let trait_ : hir_def ::TraitId = from_chalk ( db , trait_id ) ;
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let trait_data = db . trait_data ( trait_ ) ;
debug! ( " trait {:?} = {:?} " , trait_id , trait_data . name ) ;
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let generic_params = generics ( db . upcast ( ) , trait_ . into ( ) ) ;
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let bound_vars = Substs ::bound_vars ( & generic_params ) ;
let flags = chalk_rust_ir ::TraitFlags {
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auto : trait_data . auto ,
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upstream : trait_ . lookup ( db . upcast ( ) ) . container . module ( db . upcast ( ) ) . krate ! = krate ,
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non_enumerable : true ,
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coinductive : false , // only relevant for Chalk testing
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// FIXME set these flags correctly
marker : false ,
fundamental : false ,
} ;
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let where_clauses = convert_where_clauses ( db , trait_ . into ( ) , & bound_vars ) ;
let associated_ty_ids =
trait_data . associated_types ( ) . map ( | type_alias | type_alias . to_chalk ( db ) ) . collect ( ) ;
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let trait_datum_bound = chalk_rust_ir ::TraitDatumBound { where_clauses } ;
let trait_datum = TraitDatum {
id : trait_id ,
binders : make_binders ( trait_datum_bound , bound_vars . len ( ) ) ,
flags ,
associated_ty_ids ,
} ;
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Arc ::new ( trait_datum )
}
pub ( crate ) fn struct_datum_query (
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db : & dyn HirDatabase ,
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krate : CrateId ,
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struct_id : StructId ,
) -> Arc < StructDatum > {
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debug! ( " struct_datum {:?} " , struct_id ) ;
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let type_ctor : TypeCtor = from_chalk ( db , TypeName ::Struct ( struct_id ) ) ;
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debug! ( " struct {:?} = {:?} " , struct_id , type_ctor ) ;
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let num_params = type_ctor . num_ty_params ( db ) ;
let upstream = type_ctor . krate ( db ) ! = Some ( krate ) ;
let where_clauses = type_ctor
. as_generic_def ( )
. map ( | generic_def | {
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let generic_params = generics ( db . upcast ( ) , generic_def ) ;
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let bound_vars = Substs ::bound_vars ( & generic_params ) ;
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convert_where_clauses ( db , generic_def , & bound_vars )
} )
. unwrap_or_else ( Vec ::new ) ;
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let flags = chalk_rust_ir ::StructFlags {
upstream ,
// FIXME set fundamental flag correctly
fundamental : false ,
} ;
let struct_datum_bound = chalk_rust_ir ::StructDatumBound {
fields : Vec ::new ( ) , // FIXME add fields (only relevant for auto traits)
where_clauses ,
} ;
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let struct_datum =
StructDatum { id : struct_id , binders : make_binders ( struct_datum_bound , num_params ) , flags } ;
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Arc ::new ( struct_datum )
}
pub ( crate ) fn impl_datum_query (
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db : & dyn HirDatabase ,
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krate : CrateId ,
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impl_id : ImplId ,
) -> Arc < ImplDatum > {
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let _p = ra_prof ::profile ( " impl_datum " ) ;
debug! ( " impl_datum {:?} " , impl_id ) ;
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let impl_ : Impl = from_chalk ( db , impl_id ) ;
match impl_ {
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Impl ::ImplDef ( impl_def ) = > impl_def_datum ( db , krate , impl_id , impl_def ) ,
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_ = > Arc ::new ( builtin ::impl_datum ( db , krate , impl_ ) . to_chalk ( db ) ) ,
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}
}
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fn impl_def_datum (
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db : & dyn HirDatabase ,
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krate : CrateId ,
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chalk_id : ImplId ,
impl_id : hir_def ::ImplId ,
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) -> Arc < ImplDatum > {
let trait_ref = db
. impl_trait ( impl_id )
// ImplIds for impls where the trait ref can't be resolved should never reach Chalk
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. expect ( " invalid impl passed to Chalk " )
. value ;
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let impl_data = db . impl_data ( impl_id ) ;
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let generic_params = generics ( db . upcast ( ) , impl_id . into ( ) ) ;
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let bound_vars = Substs ::bound_vars ( & generic_params ) ;
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let trait_ = trait_ref . trait_ ;
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let impl_type = if impl_id . lookup ( db . upcast ( ) ) . container . module ( db . upcast ( ) ) . krate = = krate {
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chalk_rust_ir ::ImplType ::Local
} else {
chalk_rust_ir ::ImplType ::External
} ;
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let where_clauses = convert_where_clauses ( db , impl_id . into ( ) , & bound_vars ) ;
let negative = impl_data . is_negative ;
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debug! (
" impl {:?}: {}{} where {:?} " ,
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chalk_id ,
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if negative { " ! " } else { " " } ,
trait_ref . display ( db ) ,
where_clauses
) ;
let trait_ref = trait_ref . to_chalk ( db ) ;
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let polarity = if negative {
chalk_rust_ir ::Polarity ::Negative
} else {
chalk_rust_ir ::Polarity ::Positive
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} ;
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let impl_datum_bound = chalk_rust_ir ::ImplDatumBound { trait_ref , where_clauses } ;
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let trait_data = db . trait_data ( trait_ ) ;
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let associated_ty_value_ids = impl_data
. items
. iter ( )
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. filter_map ( | item | match item {
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AssocItemId ::TypeAliasId ( type_alias ) = > Some ( * type_alias ) ,
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_ = > None ,
} )
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. filter ( | & type_alias | {
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// don't include associated types that don't exist in the trait
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let name = & db . type_alias_data ( type_alias ) . name ;
trait_data . associated_type_by_name ( name ) . is_some ( )
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} )
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. map ( | type_alias | AssocTyValue ::TypeAlias ( type_alias ) . to_chalk ( db ) )
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. collect ( ) ;
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debug! ( " impl_datum: {:?} " , impl_datum_bound ) ;
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let impl_datum = ImplDatum {
binders : make_binders ( impl_datum_bound , bound_vars . len ( ) ) ,
impl_type ,
polarity ,
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associated_ty_value_ids ,
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} ;
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Arc ::new ( impl_datum )
}
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pub ( crate ) fn associated_ty_value_query (
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db : & dyn HirDatabase ,
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krate : CrateId ,
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id : AssociatedTyValueId ,
) -> Arc < AssociatedTyValue > {
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let data : AssocTyValue = from_chalk ( db , id ) ;
match data {
AssocTyValue ::TypeAlias ( type_alias ) = > {
type_alias_associated_ty_value ( db , krate , type_alias )
}
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_ = > Arc ::new ( builtin ::associated_ty_value ( db , krate , data ) . to_chalk ( db ) ) ,
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}
}
fn type_alias_associated_ty_value (
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db : & dyn HirDatabase ,
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_krate : CrateId ,
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type_alias : TypeAliasId ,
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) -> Arc < AssociatedTyValue > {
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let type_alias_data = db . type_alias_data ( type_alias ) ;
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let impl_id = match type_alias . lookup ( db . upcast ( ) ) . container {
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AssocContainerId ::ImplId ( it ) = > it ,
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_ = > panic! ( " assoc ty value should be in impl " ) ,
} ;
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let trait_ref = db . impl_trait ( impl_id ) . expect ( " assoc ty value should not exist " ) . value ; // we don't return any assoc ty values if the impl'd trait can't be resolved
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let assoc_ty = db
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. trait_data ( trait_ref . trait_ )
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. associated_type_by_name ( & type_alias_data . name )
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. expect ( " assoc ty value should not exist " ) ; // validated when building the impl data as well
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let ty = db . ty ( type_alias . into ( ) ) ;
let value_bound = chalk_rust_ir ::AssociatedTyValueBound { ty : ty . value . to_chalk ( db ) } ;
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let value = chalk_rust_ir ::AssociatedTyValue {
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impl_id : Impl ::ImplDef ( impl_id ) . to_chalk ( db ) ,
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associated_ty_id : assoc_ty . to_chalk ( db ) ,
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value : make_binders ( value_bound , ty . num_binders ) ,
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} ;
Arc ::new ( value )
}
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impl From < StructId > for crate ::TypeCtorId {
fn from ( struct_id : StructId ) -> Self {
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InternKey ::from_intern_id ( struct_id . 0 )
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}
}
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impl From < crate ::TypeCtorId > for StructId {
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fn from ( type_ctor_id : crate ::TypeCtorId ) -> Self {
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chalk_ir ::StructId ( type_ctor_id . as_intern_id ( ) )
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}
}
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impl From < ImplId > for crate ::traits ::GlobalImplId {
fn from ( impl_id : ImplId ) -> Self {
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InternKey ::from_intern_id ( impl_id . 0 )
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}
}
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impl From < crate ::traits ::GlobalImplId > for ImplId {
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fn from ( impl_id : crate ::traits ::GlobalImplId ) -> Self {
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chalk_ir ::ImplId ( impl_id . as_intern_id ( ) )
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}
}
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impl From < chalk_rust_ir ::AssociatedTyValueId < Interner > > for crate ::traits ::AssocTyValueId {
fn from ( id : chalk_rust_ir ::AssociatedTyValueId < Interner > ) -> Self {
Self ::from_intern_id ( id . 0 )
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}
}
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impl From < crate ::traits ::AssocTyValueId > for chalk_rust_ir ::AssociatedTyValueId < Interner > {
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fn from ( assoc_ty_value_id : crate ::traits ::AssocTyValueId ) -> Self {
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chalk_rust_ir ::AssociatedTyValueId ( assoc_ty_value_id . as_intern_id ( ) )
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}
}