Safe Haskell | None |
---|---|
Language | Haskell2010 |
This module contains the rules for Agda's sort system viewed as a pure
type system (pts). The specification of a pts consists of a set
of axioms of the form s1 : s2
specifying when a sort fits in
another sort, and a set of rules of the form (s1,s2,s3)
specifying that a pi type with domain in s1
and codomain in
s2
itself fits into sort s3
.
To ensure unique principal types, the axioms and rules of Agda's
pts are given by two partial functions univSort'
and piSort'
(see Agda.TypeChecking.Substitute
). If these functions return
Nothing
, a constraint is added to ensure that the sort will be
computed eventually.
One upgrade
over the standard definition of a pts is that in a
rule (s1,s2,s3)
, in Agda the sort s2
can depend on a variable
of some type in s1
. This is needed to support Agda's universe
polymorphism where we can have e.g. a function of type ∀ {ℓ} →
Set ℓ
.
Synopsis
- inferUnivSort :: (PureTCM m, MonadConstraint m) => Sort -> m Sort
- sortFitsIn :: MonadConversion m => Sort -> Sort -> m ()
- hasBiggerSort :: Sort -> TCM ()
- inferPiSort :: PureTCM m => Dom Type -> Abs Sort -> m Sort
- inferFunSort :: Sort -> Sort -> TCM Sort
- ptsRule :: Dom Type -> Abs Sort -> Sort -> TCM ()
- ptsRule' :: Sort -> Sort -> Sort -> TCM ()
- hasPTSRule :: Dom Type -> Abs Sort -> TCM ()
- checkTelePiSort :: Type -> TCM ()
- ifIsSort :: (MonadReduce m, MonadBlock m) => Type -> (Sort -> m a) -> m a -> m a
- ifNotSort :: (MonadReduce m, MonadBlock m) => Type -> m a -> (Sort -> m a) -> m a
- shouldBeSort :: (PureTCM m, MonadBlock m, MonadError TCErr m) => Type -> m Sort
- sortOf :: forall m. (PureTCM m, MonadBlock m) => Term -> m Sort
- sortOfType :: forall m. (PureTCM m, MonadBlock m) => Type -> m Sort
Documentation
inferUnivSort :: (PureTCM m, MonadConstraint m) => Sort -> m Sort Source #
Infer the sort of another sort. If we can compute the bigger sort
straight away, return that. Otherwise, return UnivSort s
and add a
constraint to ensure we can compute the sort eventually.
sortFitsIn :: MonadConversion m => Sort -> Sort -> m () Source #
hasBiggerSort :: Sort -> TCM () Source #
inferPiSort :: PureTCM m => Dom Type -> Abs Sort -> m Sort Source #
Infer the sort of a pi type. If we can compute the sort straight away,
return that. Otherwise, return PiSort a s2
and add a constraint to
ensure we can compute the sort eventually.
inferFunSort :: Sort -> Sort -> TCM Sort Source #
As inferPiSort
, but for a nondependent function type.
checkTelePiSort :: Type -> TCM () Source #
Recursively check that an iterated function type constructed by telePi
is well-sorted.
ifIsSort :: (MonadReduce m, MonadBlock m) => Type -> (Sort -> m a) -> m a -> m a Source #
ifNotSort :: (MonadReduce m, MonadBlock m) => Type -> m a -> (Sort -> m a) -> m a Source #
shouldBeSort :: (PureTCM m, MonadBlock m, MonadError TCErr m) => Type -> m Sort Source #
Result is in reduced form.
sortOf :: forall m. (PureTCM m, MonadBlock m) => Term -> m Sort Source #
Reconstruct the sort of a term.
Precondition: given term is a well-sorted type.
sortOfType :: forall m. (PureTCM m, MonadBlock m) => Type -> m Sort Source #
Reconstruct the minimal sort of a type (ignoring the sort annotation).