Safe Haskell | Safe-Inferred |
---|---|
Language | Haskell2010 |
Check that a datatype is strictly positive.
Synopsis
- type Graph n e = Graph n e
- checkStrictlyPositive :: MutualInfo -> Set QName -> TCM ()
- getDefArity :: Definition -> TCM Int
- data Item
- type Occurrences = Map Item [OccursWhere]
- data OccurrencesBuilder
- data OccurrencesBuilder'
- preprocess :: OccurrencesBuilder -> OccurrencesBuilder'
- flatten :: OccurrencesBuilder -> Map Item Integer
- data OccEnv = OccEnv {}
- type OccM = Reader OccEnv
- withExtendedOccEnv :: Maybe Item -> OccM a -> OccM a
- withExtendedOccEnv' :: [Maybe Item] -> OccM a -> OccM a
- getOccurrences :: (Show a, PrettyTCM a, ComputeOccurrences a) => [Maybe Item] -> a -> TCM OccurrencesBuilder
- class ComputeOccurrences a where
- occurrences :: a -> OccM OccurrencesBuilder
- computeOccurrences :: QName -> TCM (Map Item Integer)
- computeOccurrences' :: QName -> TCM OccurrencesBuilder
- data Node
- data Edge a = Edge !Occurrence a
- mergeEdges :: Edge a -> Edge a -> Edge a
- buildOccurrenceGraph :: Set QName -> TCM (Graph Node (Edge OccursWhere))
- computeEdges :: Set QName -> QName -> OccurrencesBuilder -> TCM [Edge Node (Edge OccursWhere)]
Documentation
checkStrictlyPositive :: MutualInfo -> Set QName -> TCM () Source #
Check that the datatypes in the mutual block containing the given declarations are strictly positive.
Also add information about positivity and recursivity of records to the signature.
getDefArity :: Definition -> TCM Int Source #
type Occurrences = Map Item [OccursWhere] Source #
data OccurrencesBuilder Source #
Used to build Occurrences
and occurrence graphs.
Concat [OccurrencesBuilder] | |
OccursAs Where OccurrencesBuilder | |
OccursHere Item | |
OnlyVarsUpTo Nat OccurrencesBuilder |
|
Instances
Monoid OccurrencesBuilder Source # | The monoid laws only hold up to flattening of |
Semigroup OccurrencesBuilder Source # | The semigroup laws only hold up to flattening of |
Defined in Agda.TypeChecking.Positivity (<>) :: OccurrencesBuilder -> OccurrencesBuilder -> OccurrencesBuilder # sconcat :: NonEmpty OccurrencesBuilder -> OccurrencesBuilder stimes :: Integral b => b -> OccurrencesBuilder -> OccurrencesBuilder |
data OccurrencesBuilder' Source #
Used to build Occurrences
and occurrence graphs.
preprocess :: OccurrencesBuilder -> OccurrencesBuilder' Source #
Removes OnlyVarsUpTo
entries.
flatten :: OccurrencesBuilder -> Map Item Integer Source #
An interpreter for OccurrencesBuilder
.
WARNING: There can be lots of sharing between the generated
OccursWhere
entries. Traversing all of these entries could be
expensive. (See computeEdges
for an example.)
Context for computing occurrences.
:: (Show a, PrettyTCM a, ComputeOccurrences a) | |
=> [Maybe Item] | Extension of the |
-> a | |
-> TCM OccurrencesBuilder |
Running the monad
class ComputeOccurrences a where Source #
Nothing
occurrences :: a -> OccM OccurrencesBuilder Source #
default occurrences :: (Foldable t, ComputeOccurrences b, t b ~ a) => a -> OccM OccurrencesBuilder Source #
Instances
computeOccurrences :: QName -> TCM (Map Item Integer) Source #
Computes the number of occurrences of different Item
s in the
given definition.
WARNING: There can be lots of sharing between the OccursWhere
entries. Traversing all of these entries could be expensive. (See
computeEdges
for an example.)
computeOccurrences' :: QName -> TCM OccurrencesBuilder Source #
Computes the occurrences in the given definition.
Edge labels for the positivity graph.
Edge !Occurrence a |
Instances
Functor Edge Source # | |
PrettyTCMWithNode (Edge OccursWhere) Source # | |
Defined in Agda.TypeChecking.Positivity prettyTCMWithNode :: (PrettyTCM n, MonadPretty m) => WithNode n (Edge OccursWhere) -> m Doc Source # | |
SemiRing (Edge (Seq OccursWhere)) Source # | These operations form a semiring if we quotient by the relation
"the |
Defined in Agda.TypeChecking.Positivity ozero :: Edge (Seq OccursWhere) Source # oone :: Edge (Seq OccursWhere) Source # oplus :: Edge (Seq OccursWhere) -> Edge (Seq OccursWhere) -> Edge (Seq OccursWhere) Source # otimes :: Edge (Seq OccursWhere) -> Edge (Seq OccursWhere) -> Edge (Seq OccursWhere) Source # | |
Show a => Show (Edge a) Source # | |
Eq a => Eq (Edge a) Source # | |
Ord a => Ord (Edge a) Source # | |
mergeEdges :: Edge a -> Edge a -> Edge a Source #
Merges two edges between the same source and target.
buildOccurrenceGraph :: Set QName -> TCM (Graph Node (Edge OccursWhere)) Source #
WARNING: There can be lots of sharing between the OccursWhere
entries in the edges. Traversing all of these entries could be
expensive. (See computeEdges
for an example.)
:: Set QName | The names in the current mutual block. |
-> QName | The current name. |
-> OccurrencesBuilder | |
-> TCM [Edge Node (Edge OccursWhere)] |
Computes all non-ozero
occurrence graph edges represented by
the given OccurrencesBuilder
.
WARNING: There can be lots of sharing between the OccursWhere
entries in the edges. Traversing all of these entries could be
expensive. For instance, for the function F
in
benchmarkmiscSlowOccurrences.agda
a large number of edges from
the argument X
to the function F
are computed. These edges have
polarity StrictPos
, JustNeg
or JustPos
, and contain the
following OccursWhere
elements:
,OccursWhere
_empty
(fromList
[InDefOf
F,InClause
0])
,OccursWhere
_empty
(fromList
[InDefOf
F,InClause
0,LeftOfArrow
])
,OccursWhere
_empty
(fromList
[InDefOf
F,InClause
0,LeftOfArrow
,LeftOfArrow
])
,OccursWhere
_empty
(fromList
[InDefOf
F,InClause
0,LeftOfArrow
,LeftOfArrow
,LeftOfArrow
])- and so on.
Orphan instances
PrettyTCM (Seq OccursWhere) Source # | |
prettyTCM :: MonadPretty m => Seq OccursWhere -> m Doc Source # |