Struct chalk_solve::logging_db::WriteOnDropRustIrDatabase
source · pub struct WriteOnDropRustIrDatabase<I, W, DB, P = DB>{
db: LoggingRustIrDatabase<I, DB, P>,
write: W,
}
Expand description
Wraps a RustIrDatabase
, and, when dropped, writes out all used
definition to the given file.
Uses LoggingRustIrDatabase
internally.
Uses a separate type, P
, for the database stored inside to account for
Arc
or wrapping other storage mediums.
Fields§
§db: LoggingRustIrDatabase<I, DB, P>
§write: W
Implementations§
source§impl<I, W, DB, P> WriteOnDropRustIrDatabase<I, W, DB, P>
impl<I, W, DB, P> WriteOnDropRustIrDatabase<I, W, DB, P>
pub fn new(db: P, write: W) -> Self
pub fn from_logging_db(db: LoggingRustIrDatabase<I, DB, P>, write: W) -> Self
Trait Implementations§
source§impl<I, W, DB, P> Debug for WriteOnDropRustIrDatabase<I, W, DB, P>
impl<I, W, DB, P> Debug for WriteOnDropRustIrDatabase<I, W, DB, P>
source§impl<I, W, DB, P> Drop for WriteOnDropRustIrDatabase<I, W, DB, P>
impl<I, W, DB, P> Drop for WriteOnDropRustIrDatabase<I, W, DB, P>
source§impl<I, W, DB, P> RustIrDatabase<I> for WriteOnDropRustIrDatabase<I, W, DB, P>
impl<I, W, DB, P> RustIrDatabase<I> for WriteOnDropRustIrDatabase<I, W, DB, P>
source§fn coroutine_witness_datum(
&self,
coroutine_id: CoroutineId<I>,
) -> Arc<CoroutineWitnessDatum<I>>
fn coroutine_witness_datum( &self, coroutine_id: CoroutineId<I>, ) -> Arc<CoroutineWitnessDatum<I>>
Returns the coroutine witness datum for the coroutine with the given id.
source§fn custom_clauses(&self) -> Vec<ProgramClause<I>>
fn custom_clauses(&self) -> Vec<ProgramClause<I>>
Returns any “custom program clauses” that do not derive from
Rust IR. Used only in testing the underlying solver.
source§fn associated_ty_data(&self, ty: AssocTypeId<I>) -> Arc<AssociatedTyDatum<I>>
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source§fn trait_datum(&self, trait_id: TraitId<I>) -> Arc<TraitDatum<I>>
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source§fn adt_datum(&self, adt_id: AdtId<I>) -> Arc<AdtDatum<I>>
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source§fn coroutine_datum(
&self,
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source§fn adt_repr(&self, id: AdtId<I>) -> Arc<AdtRepr<I>>
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source§fn adt_size_align(&self, id: AdtId<I>) -> Arc<AdtSizeAlign>
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source§fn impl_datum(&self, impl_id: ImplId<I>) -> Arc<ImplDatum<I>>
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source§fn associated_ty_value(
&self,
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fn opaque_ty_data(&self, id: OpaqueTyId<I>) -> Arc<OpaqueTyDatum<I>>
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source§fn impls_for_trait(
&self,
trait_id: TraitId<I>,
parameters: &[GenericArg<I>],
binders: &CanonicalVarKinds<I>,
) -> Vec<ImplId<I>>
fn impls_for_trait( &self, trait_id: TraitId<I>, parameters: &[GenericArg<I>], binders: &CanonicalVarKinds<I>, ) -> Vec<ImplId<I>>
Returns a list of potentially relevant impls for a given
trait-id; we also supply the type parameters that we are
trying to match (if known: these parameters may contain
inference variables, for example). The implementor is
permitted to return any superset of the applicable impls;
chalk will narrow down the list to only those that truly
apply. The parameters are provided as a “hint” to help the
implementor do less work, but can be completely ignored if
desired. Read more
source§fn local_impls_to_coherence_check(&self, trait_id: TraitId<I>) -> Vec<ImplId<I>>
fn local_impls_to_coherence_check(&self, trait_id: TraitId<I>) -> Vec<ImplId<I>>
Returns the impls that require coherence checking. This is not the
full set of impls that exist: Read more
source§fn impl_provided_for(&self, auto_trait_id: TraitId<I>, ty: &TyKind<I>) -> bool
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&self,
well_known_trait: WellKnownTrait,
) -> Option<TraitId<I>>
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source§fn program_clauses_for_env(
&self,
environment: &Environment<I>,
) -> ProgramClauses<I>
fn program_clauses_for_env( &self, environment: &Environment<I>, ) -> ProgramClauses<I>
Calculates program clauses from an env. This is intended to call the
program_clauses_for_env
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source§fn trait_name(&self, trait_id: TraitId<I>) -> String
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source§fn adt_name(&self, adt_id: AdtId<I>) -> String
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source§fn assoc_type_name(&self, assoc_ty_id: AssocTypeId<I>) -> String
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source§fn opaque_type_name(&self, opaque_ty_id: OpaqueTyId<I>) -> String
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source§fn fn_def_datum(&self, fn_def_id: FnDefId<I>) -> Arc<FnDefDatum<I>>
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source§fn fn_def_name(&self, fn_def_id: FnDefId<I>) -> String
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source§fn closure_kind(
&self,
closure_id: ClosureId<I>,
substs: &Substitution<I>,
) -> ClosureKind
fn closure_kind( &self, closure_id: ClosureId<I>, substs: &Substitution<I>, ) -> ClosureKind
Gets the
ClosureKind
for a given closure and substitution.source§fn closure_inputs_and_output(
&self,
closure_id: ClosureId<I>,
substs: &Substitution<I>,
) -> Binders<FnDefInputsAndOutputDatum<I>>
fn closure_inputs_and_output( &self, closure_id: ClosureId<I>, substs: &Substitution<I>, ) -> Binders<FnDefInputsAndOutputDatum<I>>
Gets the inputs and output for a given closure id and substitution. We
pass both the
ClosureId
and it’s Substituion
to give implementors
the freedom to store associated data in the substitution (like rustc) or
separately (like chalk-integration).source§fn closure_upvars(
&self,
closure_id: ClosureId<I>,
substs: &Substitution<I>,
) -> Binders<Ty<I>>
fn closure_upvars( &self, closure_id: ClosureId<I>, substs: &Substitution<I>, ) -> Binders<Ty<I>>
Gets the upvars as a
Ty
for a given closure id and substitution. There
are no restrictions on the type of upvars.source§fn closure_fn_substitution(
&self,
closure_id: ClosureId<I>,
substs: &Substitution<I>,
) -> Substitution<I>
fn closure_fn_substitution( &self, closure_id: ClosureId<I>, substs: &Substitution<I>, ) -> Substitution<I>
Gets the substitution for the closure when used as a function.
For example, for the following (not-quite-)rust code: Read more
fn discriminant_type(&self, ty: Ty<I>) -> Ty<I>
source§impl<I, W, DB, P> UnificationDatabase<I> for WriteOnDropRustIrDatabase<I, W, DB, P>
impl<I, W, DB, P> UnificationDatabase<I> for WriteOnDropRustIrDatabase<I, W, DB, P>
source§fn fn_def_variance(&self, fn_def_id: FnDefId<I>) -> Variances<I>
fn fn_def_variance(&self, fn_def_id: FnDefId<I>) -> Variances<I>
Gets the variances for the substitution of a fn def
source§fn adt_variance(&self, adt_id: AdtId<I>) -> Variances<I>
fn adt_variance(&self, adt_id: AdtId<I>) -> Variances<I>
Gets the variances for the substitution of a adt
Auto Trait Implementations§
impl<I, W, DB, P = DB> !Freeze for WriteOnDropRustIrDatabase<I, W, DB, P>
impl<I, W, DB, P> RefUnwindSafe for WriteOnDropRustIrDatabase<I, W, DB, P>
impl<I, W, DB, P> Send for WriteOnDropRustIrDatabase<I, W, DB, P>
impl<I, W, DB, P> Sync for WriteOnDropRustIrDatabase<I, W, DB, P>
impl<I, W, DB, P> Unpin for WriteOnDropRustIrDatabase<I, W, DB, P>
impl<I, W, DB, P> UnwindSafe for WriteOnDropRustIrDatabase<I, W, DB, P>
Blanket Implementations§
source§impl<T> BorrowMut<T> for Twhere
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source§impl<DB, I> Split<I> for DB
impl<DB, I> Split<I> for DB
source§fn split_projection<'p>(
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fn split_projection<'p>( &self, projection: &'p ProjectionTy<I>, ) -> (Arc<AssociatedTyDatum<I>>, &'p [GenericArg<I>], &'p [GenericArg<I>])
Given a projection of an associated type, split the type
parameters into those that come from the trait and those
that come from the associated type itself. So e.g. if you
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,
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any type parameters itself.source§fn trait_parameters_from_projection<'p>(
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Given a projection
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,
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).source§fn split_associated_ty_value_parameters<'p, P>(
&self,
parameters: &'p [P],
associated_ty_value: &AssociatedTyValue<I>,
) -> (&'p [P], &'p [P])
fn split_associated_ty_value_parameters<'p, P>( &self, parameters: &'p [P], associated_ty_value: &AssociatedTyValue<I>, ) -> (&'p [P], &'p [P])
Given the full set of parameters (or binders) for an
associated type value (which appears in an impl), splits
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source§fn impl_parameters_and_projection_from_associated_ty_value<'p>(
&self,
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associated_ty_value: &AssociatedTyValue<I>,
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fn impl_parameters_and_projection_from_associated_ty_value<'p>( &self, parameters: &'p [GenericArg<I>], associated_ty_value: &AssociatedTyValue<I>, ) -> (&'p [GenericArg<I>], ProjectionTy<I>)
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source§fn split_associated_ty_parameters<'p, P>(
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fn split_associated_ty_parameters<'p, P>( &self, parameters: &'p [P], associated_ty_datum: &AssociatedTyDatum<I>, ) -> (&'p [P], &'p [P])
Given the full set of parameters (or binders) for an
associated type datum (the one appearing in a trait), splits
them into the parameters for the trait and those for the
associated type. Read more