| Safe Haskell | Safe-Inferred |
|---|---|
| Language | Haskell2010 |
GHC.Types.Unique.FM
Synopsis
- data UniqFM key ele
- newtype NonDetUniqFM key ele = NonDetUniqFM {}
- emptyUFM :: UniqFM key elt
- unitUFM :: Uniquable key => key -> elt -> UniqFM key elt
- unitDirectlyUFM :: Unique -> elt -> UniqFM key elt
- zipToUFM :: Uniquable key => [key] -> [elt] -> UniqFM key elt
- listToUFM :: Uniquable key => [(key, elt)] -> UniqFM key elt
- listToUFM_Directly :: [(Unique, elt)] -> UniqFM key elt
- listToUFM_C :: Uniquable key => (elt -> elt -> elt) -> [(key, elt)] -> UniqFM key elt
- listToIdentityUFM :: Uniquable key => [key] -> UniqFM key key
- addToUFM :: Uniquable key => UniqFM key elt -> key -> elt -> UniqFM key elt
- addToUFM_C :: Uniquable key => (elt -> elt -> elt) -> UniqFM key elt -> key -> elt -> UniqFM key elt
- addToUFM_Acc :: Uniquable key => (elt -> elts -> elts) -> (elt -> elts) -> UniqFM key elts -> key -> elt -> UniqFM key elts
- addToUFM_L :: Uniquable key => (key -> elt -> elt -> elt) -> key -> elt -> UniqFM key elt -> (Maybe elt, UniqFM key elt)
- addListToUFM :: Uniquable key => UniqFM key elt -> [(key, elt)] -> UniqFM key elt
- addListToUFM_C :: Uniquable key => (elt -> elt -> elt) -> UniqFM key elt -> [(key, elt)] -> UniqFM key elt
- addToUFM_Directly :: UniqFM key elt -> Unique -> elt -> UniqFM key elt
- addListToUFM_Directly :: UniqFM key elt -> [(Unique, elt)] -> UniqFM key elt
- adjustUFM :: Uniquable key => (elt -> elt) -> UniqFM key elt -> key -> UniqFM key elt
- alterUFM :: Uniquable key => (Maybe elt -> Maybe elt) -> UniqFM key elt -> key -> UniqFM key elt
- adjustUFM_Directly :: (elt -> elt) -> UniqFM key elt -> Unique -> UniqFM key elt
- delFromUFM :: Uniquable key => UniqFM key elt -> key -> UniqFM key elt
- delFromUFM_Directly :: UniqFM key elt -> Unique -> UniqFM key elt
- delListFromUFM :: Uniquable key => UniqFM key elt -> [key] -> UniqFM key elt
- delListFromUFM_Directly :: UniqFM key elt -> [Unique] -> UniqFM key elt
- plusUFM :: UniqFM key elt -> UniqFM key elt -> UniqFM key elt
- plusUFM_C :: (elt -> elt -> elt) -> UniqFM key elt -> UniqFM key elt -> UniqFM key elt
- plusUFM_CD :: (elta -> eltb -> eltc) -> UniqFM key elta -> elta -> UniqFM key eltb -> eltb -> UniqFM key eltc
- plusUFM_CD2 :: (Maybe elta -> Maybe eltb -> eltc) -> UniqFM key elta -> UniqFM key eltb -> UniqFM key eltc
- mergeUFM :: (elta -> eltb -> Maybe eltc) -> (UniqFM key elta -> UniqFM key eltc) -> (UniqFM key eltb -> UniqFM key eltc) -> UniqFM key elta -> UniqFM key eltb -> UniqFM key eltc
- plusMaybeUFM_C :: (elt -> elt -> Maybe elt) -> UniqFM key elt -> UniqFM key elt -> UniqFM key elt
- plusUFMList :: [UniqFM key elt] -> UniqFM key elt
- sequenceUFMList :: forall key elt. [UniqFM key elt] -> UniqFM key [elt]
- minusUFM :: UniqFM key elt1 -> UniqFM key elt2 -> UniqFM key elt1
- minusUFM_C :: (elt1 -> elt2 -> Maybe elt1) -> UniqFM key elt1 -> UniqFM key elt2 -> UniqFM key elt1
- intersectUFM :: UniqFM key elt1 -> UniqFM key elt2 -> UniqFM key elt1
- intersectUFM_C :: (elt1 -> elt2 -> elt3) -> UniqFM key elt1 -> UniqFM key elt2 -> UniqFM key elt3
- disjointUFM :: UniqFM key elt1 -> UniqFM key elt2 -> Bool
- equalKeysUFM :: UniqFM key a -> UniqFM key b -> Bool
- nonDetStrictFoldUFM :: (elt -> a -> a) -> a -> UniqFM key elt -> a
- foldUFM :: (elt -> a -> a) -> a -> UniqFM key elt -> a
- nonDetStrictFoldUFM_DirectlyM :: Monad m => (Unique -> b -> elt -> m b) -> b -> UniqFM key elt -> m b
- nonDetStrictFoldUFM_Directly :: (Unique -> elt -> a -> a) -> a -> UniqFM key elt -> a
- anyUFM :: (elt -> Bool) -> UniqFM key elt -> Bool
- allUFM :: (elt -> Bool) -> UniqFM key elt -> Bool
- seqEltsUFM :: (elt -> ()) -> UniqFM key elt -> ()
- mapUFM :: (elt1 -> elt2) -> UniqFM key elt1 -> UniqFM key elt2
- mapUFM_Directly :: (Unique -> elt1 -> elt2) -> UniqFM key elt1 -> UniqFM key elt2
- mapMaybeUFM :: (elt1 -> Maybe elt2) -> UniqFM key elt1 -> UniqFM key elt2
- elemUFM :: Uniquable key => key -> UniqFM key elt -> Bool
- elemUFM_Directly :: Unique -> UniqFM key elt -> Bool
- filterUFM :: (elt -> Bool) -> UniqFM key elt -> UniqFM key elt
- filterUFM_Directly :: (Unique -> elt -> Bool) -> UniqFM key elt -> UniqFM key elt
- partitionUFM :: (elt -> Bool) -> UniqFM key elt -> (UniqFM key elt, UniqFM key elt)
- sizeUFM :: UniqFM key elt -> Int
- isNullUFM :: UniqFM key elt -> Bool
- lookupUFM :: Uniquable key => UniqFM key elt -> key -> Maybe elt
- lookupUFM_Directly :: UniqFM key elt -> Unique -> Maybe elt
- lookupWithDefaultUFM :: Uniquable key => UniqFM key elt -> elt -> key -> elt
- lookupWithDefaultUFM_Directly :: UniqFM key elt -> elt -> Unique -> elt
- nonDetEltsUFM :: UniqFM key elt -> [elt]
- nonDetKeysUFM :: UniqFM key elt -> [Unique]
- ufmToSet_Directly :: UniqFM key elt -> IntSet
- nonDetUFMToList :: UniqFM key elt -> [(Unique, elt)]
- ufmToIntMap :: UniqFM key elt -> IntMap elt
- unsafeIntMapToUFM :: IntMap elt -> UniqFM key elt
- unsafeCastUFMKey :: UniqFM key1 elt -> UniqFM key2 elt
- pprUniqFM :: (a -> SDoc) -> UniqFM key a -> SDoc
- pprUFM :: UniqFM key a -> ([a] -> SDoc) -> SDoc
- pprUFMWithKeys :: UniqFM key a -> ([(Unique, a)] -> SDoc) -> SDoc
- pluralUFM :: UniqFM key a -> SDoc
Unique-keyed mappings
A finite map from uniques of one type to
elements in another type.
The key is just here to keep us honest. It's always safe to use a single type as key. If two types don't overlap in their uniques it's also safe to index the same map at multiple key types. But this is very much discouraged.
Instances
| Functor (UniqFM key) Source # | |
| (Data key, Data ele) => Data (UniqFM key ele) Source # | |
Defined in GHC.Types.Unique.FM Methods gfoldl :: (forall d b. Data d => c (d -> b) -> d -> c b) -> (forall g. g -> c g) -> UniqFM key ele -> c (UniqFM key ele) Source # gunfold :: (forall b r. Data b => c (b -> r) -> c r) -> (forall r. r -> c r) -> Constr -> c (UniqFM key ele) Source # toConstr :: UniqFM key ele -> Constr Source # dataTypeOf :: UniqFM key ele -> DataType Source # dataCast1 :: Typeable t => (forall d. Data d => c (t d)) -> Maybe (c (UniqFM key ele)) Source # dataCast2 :: Typeable t => (forall d e. (Data d, Data e) => c (t d e)) -> Maybe (c (UniqFM key ele)) Source # gmapT :: (forall b. Data b => b -> b) -> UniqFM key ele -> UniqFM key ele Source # gmapQl :: (r -> r' -> r) -> r -> (forall d. Data d => d -> r') -> UniqFM key ele -> r Source # gmapQr :: forall r r'. (r' -> r -> r) -> r -> (forall d. Data d => d -> r') -> UniqFM key ele -> r Source # gmapQ :: (forall d. Data d => d -> u) -> UniqFM key ele -> [u] Source # gmapQi :: Int -> (forall d. Data d => d -> u) -> UniqFM key ele -> u Source # gmapM :: Monad m => (forall d. Data d => d -> m d) -> UniqFM key ele -> m (UniqFM key ele) Source # gmapMp :: MonadPlus m => (forall d. Data d => d -> m d) -> UniqFM key ele -> m (UniqFM key ele) Source # gmapMo :: MonadPlus m => (forall d. Data d => d -> m d) -> UniqFM key ele -> m (UniqFM key ele) Source # | |
| Monoid (UniqFM key a) Source # | |
| Semigroup (UniqFM key a) Source # | |
| Outputable a => Outputable (UniqFM key a) Source # | |
| Eq ele => Eq (UniqFM key ele) Source # | |
newtype NonDetUniqFM key ele Source #
A wrapper around UniqFM with the sole purpose of informing call sites
that the provided Foldable and Traversable instances are
nondeterministic.
If you use this please provide a justification why it doesn't introduce
nondeterminism.
See Note [Deterministic UniqFM] in GHC.Types.Unique.DFM to learn about determinism.
Constructors
| NonDetUniqFM | |
Instances
| Foldable (NonDetUniqFM key) Source # | Inherently nondeterministic. If you use this please provide a justification why it doesn't introduce nondeterminism. See Note [Deterministic UniqFM] in GHC.Types.Unique.DFM to learn about determinism. |
Defined in GHC.Types.Unique.FM Methods fold :: Monoid m => NonDetUniqFM key m -> m Source # foldMap :: Monoid m => (a -> m) -> NonDetUniqFM key a -> m Source # foldMap' :: Monoid m => (a -> m) -> NonDetUniqFM key a -> m Source # foldr :: (a -> b -> b) -> b -> NonDetUniqFM key a -> b Source # foldr' :: (a -> b -> b) -> b -> NonDetUniqFM key a -> b Source # foldl :: (b -> a -> b) -> b -> NonDetUniqFM key a -> b Source # foldl' :: (b -> a -> b) -> b -> NonDetUniqFM key a -> b Source # foldr1 :: (a -> a -> a) -> NonDetUniqFM key a -> a Source # foldl1 :: (a -> a -> a) -> NonDetUniqFM key a -> a Source # toList :: NonDetUniqFM key a -> [a] Source # null :: NonDetUniqFM key a -> Bool Source # length :: NonDetUniqFM key a -> Int Source # elem :: Eq a => a -> NonDetUniqFM key a -> Bool Source # maximum :: Ord a => NonDetUniqFM key a -> a Source # minimum :: Ord a => NonDetUniqFM key a -> a Source # sum :: Num a => NonDetUniqFM key a -> a Source # product :: Num a => NonDetUniqFM key a -> a Source # | |
| Traversable (NonDetUniqFM key) Source # | Inherently nondeterministic. If you use this please provide a justification why it doesn't introduce nondeterminism. See Note [Deterministic UniqFM] in GHC.Types.Unique.DFM to learn about determinism. |
Defined in GHC.Types.Unique.FM Methods traverse :: Applicative f => (a -> f b) -> NonDetUniqFM key a -> f (NonDetUniqFM key b) Source # sequenceA :: Applicative f => NonDetUniqFM key (f a) -> f (NonDetUniqFM key a) Source # mapM :: Monad m => (a -> m b) -> NonDetUniqFM key a -> m (NonDetUniqFM key b) Source # sequence :: Monad m => NonDetUniqFM key (m a) -> m (NonDetUniqFM key a) Source # | |
| Functor (NonDetUniqFM key) Source # | |
Defined in GHC.Types.Unique.FM Methods fmap :: (a -> b) -> NonDetUniqFM key a -> NonDetUniqFM key b Source # (<$) :: a -> NonDetUniqFM key b -> NonDetUniqFM key a Source # | |
Manipulating those mappings
unitDirectlyUFM :: Unique -> elt -> UniqFM key elt Source #
listToUFM_Directly :: [(Unique, elt)] -> UniqFM key elt Source #
listToUFM_C :: Uniquable key => (elt -> elt -> elt) -> [(key, elt)] -> UniqFM key elt Source #
listToIdentityUFM :: Uniquable key => [key] -> UniqFM key key Source #
addToUFM_C :: Uniquable key => (elt -> elt -> elt) -> UniqFM key elt -> key -> elt -> UniqFM key elt Source #
addToUFM_Acc :: Uniquable key => (elt -> elts -> elts) -> (elt -> elts) -> UniqFM key elts -> key -> elt -> UniqFM key elts Source #
addToUFM_L :: Uniquable key => (key -> elt -> elt -> elt) -> key -> elt -> UniqFM key elt -> (Maybe elt, UniqFM key elt) Source #
Add an element, returns previous lookup result and new map. If old element doesn't exist, add the passed element directly, otherwise compute the element to add using the passed function.
addListToUFM_C :: Uniquable key => (elt -> elt -> elt) -> UniqFM key elt -> [(key, elt)] -> UniqFM key elt Source #
Add elements to the map, combining existing values with inserted ones using the given function.
alterUFM :: Uniquable key => (Maybe elt -> Maybe elt) -> UniqFM key elt -> key -> UniqFM key elt Source #
plusUFM_CD :: (elta -> eltb -> eltc) -> UniqFM key elta -> elta -> UniqFM key eltb -> eltb -> UniqFM key eltc Source #
`plusUFM_CD f m1 d1 m2 d2` merges the maps using f as the
combinding function and d1 resp. d2 as the default value if
there is no entry in m1 reps. m2. The domain is the union of
the domains of m1 and m2.
IMPORTANT NOTE: This function strictly applies the modification function and forces the result unlike most the other functions in this module.
Representative example:
plusUFM_CD f {A: 1, B: 2} 23 {B: 3, C: 4} 42
== {A: f 1 42, B: f 2 3, C: f 23 4 }
plusUFM_CD2 :: (Maybe elta -> Maybe eltb -> eltc) -> UniqFM key elta -> UniqFM key eltb -> UniqFM key eltc Source #
`plusUFM_CD2 f m1 m2` merges the maps using f as the combining
function. Unlike plusUFM_CD, a missing value is not defaulted: it is
instead passed as Nothing to f. f can never have both its arguments
be Nothing.
IMPORTANT NOTE: This function strictly applies the modification function and forces the result.
`plusUFM_CD2 f m1 m2` is the same as `plusUFM_CD f (mapUFM Just m1) Nothing (mapUFM Just m2) Nothing`.
mergeUFM :: (elta -> eltb -> Maybe eltc) -> (UniqFM key elta -> UniqFM key eltc) -> (UniqFM key eltb -> UniqFM key eltc) -> UniqFM key elta -> UniqFM key eltb -> UniqFM key eltc Source #
plusMaybeUFM_C :: (elt -> elt -> Maybe elt) -> UniqFM key elt -> UniqFM key elt -> UniqFM key elt Source #
plusUFMList :: [UniqFM key elt] -> UniqFM key elt Source #
sequenceUFMList :: forall key elt. [UniqFM key elt] -> UniqFM key [elt] Source #
minusUFM_C :: (elt1 -> elt2 -> Maybe elt1) -> UniqFM key elt1 -> UniqFM key elt2 -> UniqFM key elt1 Source #
intersectUFM_C :: (elt1 -> elt2 -> elt3) -> UniqFM key elt1 -> UniqFM key elt2 -> UniqFM key elt3 Source #
nonDetStrictFoldUFM :: (elt -> a -> a) -> a -> UniqFM key elt -> a Source #
nonDetStrictFoldUFM_DirectlyM :: Monad m => (Unique -> b -> elt -> m b) -> b -> UniqFM key elt -> m b Source #
In essence foldM See Note [Deterministic UniqFM] to learn about nondeterminism. If you use this please provide a justification why it doesn't introduce nondeterminism.
nonDetStrictFoldUFM_Directly :: (Unique -> elt -> a -> a) -> a -> UniqFM key elt -> a Source #
seqEltsUFM :: (elt -> ()) -> UniqFM key elt -> () Source #
lookupWithDefaultUFM :: Uniquable key => UniqFM key elt -> elt -> key -> elt Source #
lookupWithDefaultUFM_Directly :: UniqFM key elt -> elt -> Unique -> elt Source #
nonDetEltsUFM :: UniqFM key elt -> [elt] Source #
nonDetKeysUFM :: UniqFM key elt -> [Unique] Source #
ufmToSet_Directly :: UniqFM key elt -> IntSet Source #
nonDetUFMToList :: UniqFM key elt -> [(Unique, elt)] Source #
ufmToIntMap :: UniqFM key elt -> IntMap elt Source #
unsafeIntMapToUFM :: IntMap elt -> UniqFM key elt Source #
unsafeCastUFMKey :: UniqFM key1 elt -> UniqFM key2 elt Source #
Cast the key domain of a UniqFM.
As long as the domains don't overlap in their uniques this is safe.
Arguments
| :: UniqFM key a | The things to be pretty printed |
| -> ([a] -> SDoc) | The pretty printing function to use on the elements |
| -> SDoc |
|
Pretty-print a non-deterministic set. The order of variables is non-deterministic and for pretty-printing that shouldn't be a problem. Having this function helps contain the non-determinism created with nonDetEltsUFM.
Arguments
| :: UniqFM key a | The things to be pretty printed |
| -> ([(Unique, a)] -> SDoc) | The pretty printing function to use on the elements |
| -> SDoc |
|
Pretty-print a non-deterministic set. The order of variables is non-deterministic and for pretty-printing that shouldn't be a problem. Having this function helps contain the non-determinism created with nonDetUFMToList.