Struct ra_ap_hir_ty::Interner

pub struct Interner;

Trait Implementations

impl Clone for Interner

fn clone(&self) -> Interner

Returns a copy of the value.

fn clone_from(&mut self, source: &Self)

Performs copy-assignment from source.

impl Debug for Interner

fn fmt(&self, f: &mut Formatter<'_>) -> Result

Formats the value using the given formatter.

impl HasInterner for Interner

type Interner = Interner

The interner associated with the type.

impl Hash for Interner

fn hash<__H: Hasher>(&self, state: &mut __H)

Feeds this value into the given Hasher.

fn hash_slice<H>(data: &[Self], state: &mut H)

where H: Hasher, Self: Sized,

Feeds a slice of this type into the given Hasher.

impl Interner for Interner

type InternedType = Interned<InternedWrapper<TyData<Interner>>>

“Interned” representation of types. In normal user code, Self::InternedType is not referenced. Instead, we refer to Ty<Self>, which wraps this type.

type InternedLifetime = Interned<InternedWrapper<LifetimeData<Interner>>>

“Interned” representation of lifetimes. In normal user code, Self::InternedLifetime is not referenced. Instead, we refer to Lifetime<Self>, which wraps this type.

type InternedConst = Interned<InternedWrapper<ConstData<Interner>>>

“Interned” representation of const expressions. In normal user code, Self::InternedConst is not referenced. Instead, we refer to Const<Self>, which wraps this type.

type InternedConcreteConst = ConstScalar

“Interned” representation of an evaluated const value. Self::InternedConcreteConst is not referenced. Instead, we refer to ConcreteConst<Self>, which wraps this type.

type InternedGenericArg = GenericArgData<Interner>

“Interned” representation of a “generic parameter”, which can be either a type or a lifetime. In normal user code, Self::InternedGenericArg is not referenced. Instead, we refer to GenericArg<Self>, which wraps this type.

type InternedGoal = Arc<GoalData<Interner>>

“Interned” representation of a “goal”. In normal user code, Self::InternedGoal is not referenced. Instead, we refer to Goal<Self>, which wraps this type.

type InternedGoals = Vec<Goal<Interner>>

“Interned” representation of a list of goals. In normal user code, Self::InternedGoals is not referenced. Instead, we refer to Goals<Self>, which wraps this type.

type InternedSubstitution = Interned<InternedWrapper<SmallVec<[GenericArg<Interner>; 2]>>>

“Interned” representation of a “substitution”. In normal user code, Self::InternedSubstitution is not referenced. Instead, we refer to Substitution<Self>, which wraps this type.

type InternedProgramClauses = Interned<InternedWrapper<Vec<ProgramClause<Interner>>>>

“Interned” representation of a list of program clauses. In normal user code, Self::InternedProgramClauses is not referenced. Instead, we refer to ProgramClauses<Self>, which wraps this type.

type InternedProgramClause = ProgramClauseData<Interner>

“Interned” representation of a “program clause”. In normal user code, Self::InternedProgramClause is not referenced. Instead, we refer to ProgramClause<Self>, which wraps this type.

type InternedQuantifiedWhereClauses = Interned<InternedWrapper<Vec<Binders<WhereClause<Interner>>>>>

“Interned” representation of a list of quantified where clauses. In normal user code, Self::InternedQuantifiedWhereClauses is not referenced. Instead, we refer to QuantifiedWhereClauses<Self>, which wraps this type.

type InternedVariableKinds = Interned<InternedWrapper<Vec<VariableKind<Interner>>>>

“Interned” representation of a list of variable kinds. In normal user code, Self::InternedVariableKinds is not referenced. Instead, we refer to VariableKinds<Self>, which wraps this type.

type InternedCanonicalVarKinds = Interned<InternedWrapper<Vec<WithKind<Interner, UniverseIndex>>>>

“Interned” representation of a list of variable kinds with universe index. In normal user code, Self::InternedCanonicalVarKinds is not referenced. Instead, we refer to CanonicalVarKinds<Self>, which wraps this type.

type InternedConstraints = Vec<InEnvironment<Constraint<Interner>>>

“Interned” representation of a list of region constraints. In normal user code, Self::InternedConstraints is not referenced. Instead, we refer to Constraints<Self>, which wraps this type.

type InternedVariances = SmallVec<[Variance; 16]>

“Interned” representation of a list of chalk_ir::Variance. In normal user code, Self::InternedVariances is not referenced. Instead, we refer to Variances<Self>, which wraps this type.

type DefId = InternId

The core “id” type used for trait-ids and the like.

type InternedAdtId = AdtId

The ID type for ADTs

type Identifier = TypeAliasId

Representation of identifiers.

type FnAbi = ()

Representation of function ABI (e.g. calling convention).

fn debug_adt_id( type_kind_id: AdtId<Interner>, fmt: &mut Formatter<'_> ) -> Option<Result>

Prints the debug representation of a type-kind-id. Returns None to fallback to the default debug output.

fn debug_trait_id( type_kind_id: TraitId<Interner>, fmt: &mut Formatter<'_> ) -> Option<Result>

Prints the debug representation of a type-kind-id. Returns None to fallback to the default debug output (e.g., if no info about current program is available from TLS).

fn debug_assoc_type_id( id: AssocTypeId<Interner>, fmt: &mut Formatter<'_> ) -> Option<Result>

Prints the debug representation of a type-kind-id. Returns None to fallback to the default debug output.

fn debug_opaque_ty_id( opaque_ty_id: OpaqueTyId, fmt: &mut Formatter<'_> ) -> Option<Result>

Prints the debug representation of an opaque type. Returns None to fallback to the default debug output.

fn debug_fn_def_id( fn_def_id: FnDefId, fmt: &mut Formatter<'_> ) -> Option<Result>

Prints the debug representation of a function-def-id. Returns None to fallback to the default debug output.

fn debug_closure_id( _fn_def_id: ClosureId, _fmt: &mut Formatter<'_> ) -> Option<Result>

Prints the debug representation of a closure id. Returns None to fallback to the default debug output.

fn debug_alias(alias: &AliasTy, fmt: &mut Formatter<'_>) -> Option<Result>

Prints the debug representation of an alias. To get good results, this requires inspecting TLS, and is difficult to code without reference to a specific interner (and hence fully known types).

fn debug_projection_ty( proj: &ProjectionTy, fmt: &mut Formatter<'_> ) -> Option<Result>

Prints the debug representation of a ProjectionTy. Returns None to fallback to the default debug output.

fn debug_opaque_ty( opaque_ty: &OpaqueTy, fmt: &mut Formatter<'_> ) -> Option<Result>

Prints the debug representation of an OpaqueTy. Returns None to fallback to the default debug output.

fn debug_ty(ty: &Ty, fmt: &mut Formatter<'_>) -> Option<Result>

Prints the debug representation of a type. Returns None to fallback to the default debug output.

fn debug_lifetime( lifetime: &Lifetime, fmt: &mut Formatter<'_> ) -> Option<Result>

Prints the debug representation of a lifetime. Returns None to fallback to the default debug output.

fn debug_const(constant: &Const, fmt: &mut Formatter<'_>) -> Option<Result>

Prints the debug representation of a const. Returns None to fallback to the default debug output.

fn debug_generic_arg( parameter: &GenericArg, fmt: &mut Formatter<'_> ) -> Option<Result>

Prints the debug representation of an parameter. Returns None to fallback to the default debug output.

fn debug_variable_kinds( variable_kinds: &VariableKinds, fmt: &mut Formatter<'_> ) -> Option<Result>

Prints the debug representation of a parameter kinds list. Returns None to fallback to the default debug output.

fn debug_variable_kinds_with_angles( variable_kinds: &VariableKinds, fmt: &mut Formatter<'_> ) -> Option<Result>

Prints the debug representation of a parameter kinds list, with angle brackets. Returns None to fallback to the default debug output.

fn debug_canonical_var_kinds( canonical_var_kinds: &CanonicalVarKinds, fmt: &mut Formatter<'_> ) -> Option<Result>

Prints the debug representation of an parameter kinds list with universe index. Returns None to fallback to the default debug output.

fn debug_goal(goal: &Goal, fmt: &mut Formatter<'_>) -> Option<Result>

Prints the debug representation of an goal. Returns None to fallback to the default debug output.

fn debug_goals(goals: &Goals, fmt: &mut Formatter<'_>) -> Option<Result>

Prints the debug representation of a list of goals. Returns None to fallback to the default debug output.

fn debug_program_clause_implication( pci: &ProgramClauseImplication<Self>, fmt: &mut Formatter<'_> ) -> Option<Result>

Prints the debug representation of a ProgramClauseImplication. Returns None to fallback to the default debug output.

fn debug_program_clause( clause: &ProgramClause, fmt: &mut Formatter<'_> ) -> Option<Result>

Prints the debug representation of a ProgramClause. Returns None to fallback to the default debug output.

fn debug_program_clauses( clauses: &ProgramClauses, fmt: &mut Formatter<'_> ) -> Option<Result>

Prints the debug representation of a ProgramClauses. Returns None to fallback to the default debug output.

fn debug_substitution( substitution: &Substitution, fmt: &mut Formatter<'_> ) -> Option<Result>

Prints the debug representation of a Substitution. Returns None to fallback to the default debug output.

fn debug_separator_trait_ref( separator_trait_ref: &SeparatorTraitRef<'_, Interner>, fmt: &mut Formatter<'_> ) -> Option<Result>

Prints the debug representation of a SeparatorTraitRef. Returns None to fallback to the default debug output.

fn debug_quantified_where_clauses( clauses: &QuantifiedWhereClauses, fmt: &mut Formatter<'_> ) -> Option<Result>

Prints the debug representation of a QuantifiedWhereClauses. Returns None to fallback to the default debug output.

fn debug_constraints( _clauses: &Constraints, _fmt: &mut Formatter<'_> ) -> Option<Result>

Prints the debug representation of a Constraints. Returns None to fallback to the default debug output.

fn intern_ty(self, kind: TyKind) -> Self::InternedType

Create an “interned” type from ty. This is not normally invoked directly; instead, you invoke TyKind::intern (which will ultimately call this method).

fn ty_data(self, ty: &Self::InternedType) -> &TyData

Lookup the TyKind from an interned type.

fn intern_lifetime(self, lifetime: LifetimeData) -> Self::InternedLifetime

Create an “interned” lifetime from lifetime. This is not normally invoked directly; instead, you invoke LifetimeData::intern (which will ultimately call this method).

fn lifetime_data(self, lifetime: &Self::InternedLifetime) -> &LifetimeData

Lookup the LifetimeData that was interned to create a InternedLifetime.

fn intern_const(self, constant: ConstData) -> Self::InternedConst

Create an “interned” const from const. This is not normally invoked directly; instead, you invoke ConstData::intern (which will ultimately call this method).

fn const_data(self, constant: &Self::InternedConst) -> &ConstData

Lookup the ConstData that was interned to create a InternedConst.

fn const_eq( self, _ty: &Self::InternedType, c1: &Self::InternedConcreteConst, c2: &Self::InternedConcreteConst ) -> bool

Determine whether two concrete const values are equal.

fn intern_generic_arg( self, parameter: GenericArgData ) -> Self::InternedGenericArg

Create an “interned” parameter from data. This is not normally invoked directly; instead, you invoke GenericArgData::intern (which will ultimately call this method).

fn generic_arg_data( self, parameter: &Self::InternedGenericArg ) -> &GenericArgData

Lookup the LifetimeData that was interned to create a InternedLifetime.

fn intern_goal(self, goal: GoalData) -> Self::InternedGoal

Create an “interned” goal from data. This is not normally invoked directly; instead, you invoke GoalData::intern (which will ultimately call this method).

fn goal_data(self, goal: &Self::InternedGoal) -> &GoalData

Lookup the GoalData that was interned to create a InternedGoal.

fn intern_goals<E>( self, data: impl IntoIterator<Item = Result<Goal, E>> ) -> Result<Self::InternedGoals, E>

Create an “interned” goals from data. This is not normally invoked directly; instead, you invoke GoalsData::intern (which will ultimately call this method).

fn goals_data(self, goals: &Self::InternedGoals) -> &[Goal]

Lookup the GoalsData that was interned to create a InternedGoals.

fn intern_substitution<E>( self, data: impl IntoIterator<Item = Result<GenericArg, E>> ) -> Result<Self::InternedSubstitution, E>

Create an “interned” substitution from data. This is not normally invoked directly; instead, you invoke SubstitutionData::intern (which will ultimately call this method).

fn substitution_data( self, substitution: &Self::InternedSubstitution ) -> &[GenericArg]

Lookup the SubstitutionData that was interned to create a InternedSubstitution.

fn intern_program_clause( self, data: ProgramClauseData ) -> Self::InternedProgramClause

Create an “interned” program clause from data. This is not normally invoked directly; instead, you invoke ProgramClauseData::intern (which will ultimately call this method).

fn program_clause_data( self, clause: &Self::InternedProgramClause ) -> &ProgramClauseData

Lookup the ProgramClauseData that was interned to create a ProgramClause.

fn intern_program_clauses<E>( self, data: impl IntoIterator<Item = Result<ProgramClause, E>> ) -> Result<Self::InternedProgramClauses, E>

Create an “interned” program clauses from data. This is not normally invoked directly; instead, you invoke ProgramClauses::from_iter (which will ultimately call this method).

fn program_clauses_data( self, clauses: &Self::InternedProgramClauses ) -> &[ProgramClause]

Lookup the ProgramClauseData that was interned to create a ProgramClause.

fn intern_quantified_where_clauses<E>( self, data: impl IntoIterator<Item = Result<QuantifiedWhereClause, E>> ) -> Result<Self::InternedQuantifiedWhereClauses, E>

Create an “interned” quantified where clauses from data. This is not normally invoked directly; instead, you invoke QuantifiedWhereClauses::from_iter (which will ultimately call this method).

fn quantified_where_clauses_data( self, clauses: &Self::InternedQuantifiedWhereClauses ) -> &[QuantifiedWhereClause]

Lookup the slice of QuantifiedWhereClause that was interned to create a QuantifiedWhereClauses.

fn intern_generic_arg_kinds<E>( self, data: impl IntoIterator<Item = Result<VariableKind, E>> ) -> Result<Self::InternedVariableKinds, E>

Create an “interned” parameter kinds from data. This is not normally invoked directly; instead, you invoke VariableKinds::from_iter (which will ultimately call this method).

fn variable_kinds_data( self, parameter_kinds: &Self::InternedVariableKinds ) -> &[VariableKind]

Lookup the slice of VariableKinds that was interned to create a VariableKinds.

fn intern_canonical_var_kinds<E>( self, data: impl IntoIterator<Item = Result<CanonicalVarKind, E>> ) -> Result<Self::InternedCanonicalVarKinds, E>

Create “interned” variable kinds with universe index from data. This is not normally invoked directly; instead, you invoke CanonicalVarKinds::from_iter (which will ultimately call this method).

fn canonical_var_kinds_data( self, canonical_var_kinds: &Self::InternedCanonicalVarKinds ) -> &[CanonicalVarKind]

Lookup the slice of CanonicalVariableKind that was interned to create a CanonicalVariableKinds.

fn intern_constraints<E>( self, data: impl IntoIterator<Item = Result<InEnvironment<Constraint>, E>> ) -> Result<Self::InternedConstraints, E>

Create “interned” constraints from data. This is not normally invoked dirctly; instead, you invoke Constraints::from_iter (which will ultimately call this method).

fn constraints_data( self, constraints: &Self::InternedConstraints ) -> &[InEnvironment<Constraint>]

Lookup the slice of Constraint that was interned to create a Constraints.

fn intern_variances<E>( self, data: impl IntoIterator<Item = Result<Variance, E>> ) -> Result<Self::InternedVariances, E>

Create “interned” variances from data. This is not normally invoked directly; instead, you invoke Variances::from (which will ultimately call this method).

fn variances_data(self, variances: &Self::InternedVariances) -> &[Variance]

Lookup the slice of Variance that was interned to create a Variances.

fn debug_foreign_def_id( foreign_def_id: ForeignDefId<Self>, fmt: &mut Formatter<'_> ) -> Option<Result<(), Error>>

Prints the debug representation of a foreign-def-id. Returns None to fallback to the default debug output.

fn debug_generator_id( generator_id: GeneratorId<Self>, fmt: &mut Formatter<'_> ) -> Option<Result<(), Error>>

Prints the debug representation of an alias. Returns None to fallback to the default debug output.

fn debug_variances( variances: &Variances<Self>, fmt: &mut Formatter<'_> ) -> Option<Result<(), Error>>

Prints the debug representation of a Variances. Returns None to fallback to the default debug output.

impl Ord for Interner

fn cmp(&self, other: &Interner) -> Ordering

This method returns an Ordering between self and other.

fn max(self, other: Self) -> Self

where Self: Sized,

Compares and returns the maximum of two values.

fn min(self, other: Self) -> Self

where Self: Sized,

Compares and returns the minimum of two values.

fn clamp(self, min: Self, max: Self) -> Self

where Self: Sized + PartialOrd,

Restrict a value to a certain interval.

impl PartialEq for Interner

fn eq(&self, other: &Interner) -> bool

This method tests for self and other values to be equal, and is used by ==.

fn ne(&self, other: &Rhs) -> bool

This method tests for !=. The default implementation is almost always sufficient, and should not be overridden without very good reason.

impl PartialOrd for Interner

fn partial_cmp(&self, other: &Interner) -> Option<Ordering>

This method returns an ordering between self and other values if one exists.

fn lt(&self, other: &Rhs) -> bool

This method tests less than (for self and other) and is used by the < operator.

fn le(&self, other: &Rhs) -> bool

This method tests less than or equal to (for self and other) and is used by the <= operator.

fn gt(&self, other: &Rhs) -> bool

This method tests greater than (for self and other) and is used by the > operator.

fn ge(&self, other: &Rhs) -> bool

This method tests greater than or equal to (for self and other) and is used by the >= operator.

impl TypeFoldable<Interner> for CallableSig

fn try_fold_with<E>( self, folder: &mut dyn FallibleTypeFolder<Interner, Error = E>, outer_binder: DebruijnIndex ) -> Result<Self, E>

Apply the given folder folder to self; binders is the number of binders that are in scope when beginning the folder. Typically binders starts as 0, but is adjusted when we encounter Binders<T> in the IR or other similar constructs.

fn fold_with( self, folder: &mut dyn TypeFolder<I, Error = Infallible>, outer_binder: DebruijnIndex ) -> Self

A convenient alternative to try_fold_with for use with infallible folders. Do not override this method, to ensure coherence with try_fold_with.

impl UnificationDatabase<Interner> for &dyn HirDatabase

fn fn_def_variance(&self, fn_def_id: FnDefId<Interner>) -> Variances<Interner>

Gets the variances for the substitution of a fn def

fn adt_variance(&self, adt_id: AdtId<Interner>) -> Variances<Interner>

Gets the variances for the substitution of a adt

impl Copy for Interner

impl Eq for Interner

impl StructuralEq for Interner

impl StructuralPartialEq for Interner