Safe Haskell	None
Language	Haskell2010

CoreMap

Contents

Maps over Core expressions
Maps over Types
- With explicit scoping
Maps over Maybe values
Maps over List values
Maps over Literals
Map for compressing leaves. See Note [Compressed TrieMap]
TrieMap class

Synopsis

data CoreMap a
emptyCoreMap :: CoreMap a
extendCoreMap :: CoreMap a -> CoreExpr -> a -> CoreMap a
lookupCoreMap :: CoreMap a -> CoreExpr -> Maybe a
foldCoreMap :: (a -> b -> b) -> b -> CoreMap a -> b
data TypeMap a
emptyTypeMap :: TypeMap a
extendTypeMap :: TypeMap a -> Type -> a -> TypeMap a
lookupTypeMap :: TypeMap a -> Type -> Maybe a
foldTypeMap :: (a -> b -> b) -> b -> TypeMap a -> b
data LooseTypeMap a
data CmEnv
lookupCME :: CmEnv -> Var -> Maybe BoundVar
extendTypeMapWithScope :: TypeMap a -> CmEnv -> Type -> a -> TypeMap a
lookupTypeMapWithScope :: TypeMap a -> CmEnv -> Type -> Maybe a
mkDeBruijnContext :: [Var] -> CmEnv
data MaybeMap m a
data ListMap m a
type LiteralMap a = Map Literal a
data GenMap m a
class TrieMap m where
- type Key m :: *
- emptyTM :: m a
- lookupTM :: forall b. Key m -> m b -> Maybe b
- alterTM :: forall b. Key m -> XT b -> m b -> m b
- mapTM :: (a -> b) -> m a -> m b
- foldTM :: (a -> b -> b) -> m a -> b -> b
insertTM :: TrieMap m => Key m -> a -> m a -> m a
deleteTM :: TrieMap m => Key m -> m a -> m a
lkDFreeVar :: Var -> DVarEnv a -> Maybe a
xtDFreeVar :: Var -> XT a -> DVarEnv a -> DVarEnv a
lkDNamed :: NamedThing n => n -> DNameEnv a -> Maybe a
xtDNamed :: NamedThing n => n -> XT a -> DNameEnv a -> DNameEnv a
(>.>) :: (a -> b) -> (b -> c) -> a -> c
(|>) :: a -> (a -> b) -> b
(|>>) :: TrieMap m2 => (XT (m2 a) -> m1 (m2 a) -> m1 (m2 a)) -> (m2 a -> m2 a) -> m1 (m2 a) -> m1 (m2 a)

Maps over Core expressions

data CoreMap a Source #

CoreMap a is a map from CoreExpr to a. If you are a client, this is the type you want.

Instances

Instances details

TrieMap CoreMap #
Instance details Defined in CoreMap Associated Types type Key CoreMap Source # Methods emptyTM :: CoreMap a Source # lookupTM :: Key CoreMap -> CoreMap b -> Maybe b Source # alterTM :: Key CoreMap -> XT b -> CoreMap b -> CoreMap b Source # mapTM :: (a -> b) -> CoreMap a -> CoreMap b Source # foldTM :: (a -> b -> b) -> CoreMap a -> b -> b Source #
Outputable a => Outputable (CoreMap a) #
Instance details Defined in CoreMap Methods ppr :: CoreMap a -> SDoc Source # pprPrec :: Rational -> CoreMap a -> SDoc Source #
type Key CoreMap #
Instance details Defined in CoreMap type Key CoreMap = CoreExpr

emptyCoreMap :: CoreMap a Source #

extendCoreMap :: CoreMap a -> CoreExpr -> a -> CoreMap a Source #

lookupCoreMap :: CoreMap a -> CoreExpr -> Maybe a Source #

foldCoreMap :: (a -> b -> b) -> b -> CoreMap a -> b Source #

Maps over `Type`s

data TypeMap a Source #

TypeMap a is a map from Type to a. If you are a client, this is the type you want. The keys in this map may have different kinds.

Instances

Instances details

TrieMap TypeMap #
Instance details Defined in CoreMap Associated Types type Key TypeMap Source # Methods emptyTM :: TypeMap a Source # lookupTM :: Key TypeMap -> TypeMap b -> Maybe b Source # alterTM :: Key TypeMap -> XT b -> TypeMap b -> TypeMap b Source # mapTM :: (a -> b) -> TypeMap a -> TypeMap b Source # foldTM :: (a -> b -> b) -> TypeMap a -> b -> b Source #
type Key TypeMap #
Instance details Defined in CoreMap type Key TypeMap = Type

emptyTypeMap :: TypeMap a Source #

extendTypeMap :: TypeMap a -> Type -> a -> TypeMap a Source #

lookupTypeMap :: TypeMap a -> Type -> Maybe a Source #

foldTypeMap :: (a -> b -> b) -> b -> TypeMap a -> b Source #

data LooseTypeMap a Source #

A LooseTypeMap doesn't do a kind-check. Thus, when lookup up (t |> g), you'll find entries inserted under (t), even if (g) is non-reflexive.

Instances

Instances details

TrieMap LooseTypeMap #
Instance details Defined in CoreMap Associated Types type Key LooseTypeMap Source # Methods emptyTM :: LooseTypeMap a Source # lookupTM :: Key LooseTypeMap -> LooseTypeMap b -> Maybe b Source # alterTM :: Key LooseTypeMap -> XT b -> LooseTypeMap b -> LooseTypeMap b Source # mapTM :: (a -> b) -> LooseTypeMap a -> LooseTypeMap b Source # foldTM :: (a -> b -> b) -> LooseTypeMap a -> b -> b Source #
type Key LooseTypeMap #
Instance details Defined in CoreMap type Key LooseTypeMap = Type

With explicit scoping

data CmEnv Source #

lookupCME :: CmEnv -> Var -> Maybe BoundVar Source #

extendTypeMapWithScope :: TypeMap a -> CmEnv -> Type -> a -> TypeMap a Source #

Extend a TypeMap with a type in the given context. extendTypeMapWithScope m (mkDeBruijnContext [a,b,c]) t v is equivalent to extendTypeMap m (forall a b c. t) v, but allows reuse of the context over multiple insertions.

lookupTypeMapWithScope :: TypeMap a -> CmEnv -> Type -> Maybe a Source #

mkDeBruijnContext :: [Var] -> CmEnv Source #

Construct a deBruijn environment with the given variables in scope. e.g. mkDeBruijnEnv [a,b,c] constructs a context forall a b c.

Maps over `Maybe` values

data MaybeMap m a Source #

Instances

Instances details

TrieMap m => TrieMap (MaybeMap m) #
Instance details Defined in TrieMap Associated Types type Key (MaybeMap m) Source # Methods emptyTM :: MaybeMap m a Source # lookupTM :: Key (MaybeMap m) -> MaybeMap m b -> Maybe b Source # alterTM :: Key (MaybeMap m) -> XT b -> MaybeMap m b -> MaybeMap m b Source # mapTM :: (a -> b) -> MaybeMap m a -> MaybeMap m b Source # foldTM :: (a -> b -> b) -> MaybeMap m a -> b -> b Source #
type Key (MaybeMap m) #
Instance details Defined in TrieMap type Key (MaybeMap m) = Maybe (Key m)

Maps over `List` values

data ListMap m a Source #

Instances

Instances details

TrieMap m => TrieMap (ListMap m) #
Instance details Defined in TrieMap Associated Types type Key (ListMap m) Source # Methods emptyTM :: ListMap m a Source # lookupTM :: Key (ListMap m) -> ListMap m b -> Maybe b Source # alterTM :: Key (ListMap m) -> XT b -> ListMap m b -> ListMap m b Source # mapTM :: (a -> b) -> ListMap m a -> ListMap m b Source # foldTM :: (a -> b -> b) -> ListMap m a -> b -> b Source #
(TrieMap m, Outputable a) => Outputable (ListMap m a) #
Instance details Defined in TrieMap Methods ppr :: ListMap m a -> SDoc Source # pprPrec :: Rational -> ListMap m a -> SDoc Source #
type Key (ListMap m) #
Instance details Defined in TrieMap type Key (ListMap m) = [Key m]

Maps over `Literal`s

type LiteralMap a = Map Literal a Source #

Map for compressing leaves. See Note [Compressed TrieMap]

data GenMap m a Source #

Instances

Instances details

(Eq (Key m), TrieMap m) => TrieMap (GenMap m) #
Instance details Defined in TrieMap Associated Types type Key (GenMap m) Source # Methods emptyTM :: GenMap m a Source # lookupTM :: Key (GenMap m) -> GenMap m b -> Maybe b Source # alterTM :: Key (GenMap m) -> XT b -> GenMap m b -> GenMap m b Source # mapTM :: (a -> b) -> GenMap m a -> GenMap m b Source # foldTM :: (a -> b -> b) -> GenMap m a -> b -> b Source #
(Outputable a, Outputable (m a)) => Outputable (GenMap m a) #
Instance details Defined in TrieMap Methods ppr :: GenMap m a -> SDoc Source # pprPrec :: Rational -> GenMap m a -> SDoc Source #
type Key (GenMap m) #
Instance details Defined in TrieMap type Key (GenMap m) = Key m

`TrieMap` class

class TrieMap m where Source #

Associated Types

type Key m :: * Source #

Methods

emptyTM :: m a Source #

lookupTM :: forall b. Key m -> m b -> Maybe b Source #

alterTM :: forall b. Key m -> XT b -> m b -> m b Source #

mapTM :: (a -> b) -> m a -> m b Source #

foldTM :: (a -> b -> b) -> m a -> b -> b Source #

Instances

Instances details

TrieMap IntMap #
Instance details Defined in TrieMap Associated Types type Key IntMap Source # Methods emptyTM :: IntMap a Source # lookupTM :: Key IntMap -> IntMap b -> Maybe b Source # alterTM :: Key IntMap -> XT b -> IntMap b -> IntMap b Source # mapTM :: (a -> b) -> IntMap a -> IntMap b Source # foldTM :: (a -> b -> b) -> IntMap a -> b -> b Source #
TrieMap UniqDFM #
Instance details Defined in TrieMap Associated Types type Key UniqDFM Source # Methods emptyTM :: UniqDFM a Source # lookupTM :: Key UniqDFM -> UniqDFM b -> Maybe b Source # alterTM :: Key UniqDFM -> XT b -> UniqDFM b -> UniqDFM b Source # mapTM :: (a -> b) -> UniqDFM a -> UniqDFM b Source # foldTM :: (a -> b -> b) -> UniqDFM a -> b -> b Source #
TrieMap LabelMap #
Instance details Defined in Hoopl.Label Associated Types type Key LabelMap Source # Methods emptyTM :: LabelMap a Source # lookupTM :: Key LabelMap -> LabelMap b -> Maybe b Source # alterTM :: Key LabelMap -> XT b -> LabelMap b -> LabelMap b Source # mapTM :: (a -> b) -> LabelMap a -> LabelMap b Source # foldTM :: (a -> b -> b) -> LabelMap a -> b -> b Source #
TrieMap LooseTypeMap #
Instance details Defined in CoreMap Associated Types type Key LooseTypeMap Source # Methods emptyTM :: LooseTypeMap a Source # lookupTM :: Key LooseTypeMap -> LooseTypeMap b -> Maybe b Source # alterTM :: Key LooseTypeMap -> XT b -> LooseTypeMap b -> LooseTypeMap b Source # mapTM :: (a -> b) -> LooseTypeMap a -> LooseTypeMap b Source # foldTM :: (a -> b -> b) -> LooseTypeMap a -> b -> b Source #
TrieMap TypeMap #
Instance details Defined in CoreMap Associated Types type Key TypeMap Source # Methods emptyTM :: TypeMap a Source # lookupTM :: Key TypeMap -> TypeMap b -> Maybe b Source # alterTM :: Key TypeMap -> XT b -> TypeMap b -> TypeMap b Source # mapTM :: (a -> b) -> TypeMap a -> TypeMap b Source # foldTM :: (a -> b -> b) -> TypeMap a -> b -> b Source #
TrieMap CoreMap #
Instance details Defined in CoreMap Associated Types type Key CoreMap Source # Methods emptyTM :: CoreMap a Source # lookupTM :: Key CoreMap -> CoreMap b -> Maybe b Source # alterTM :: Key CoreMap -> XT b -> CoreMap b -> CoreMap b Source # mapTM :: (a -> b) -> CoreMap a -> CoreMap b Source # foldTM :: (a -> b -> b) -> CoreMap a -> b -> b Source #
Ord k => TrieMap (Map k) #
Instance details Defined in TrieMap Associated Types type Key (Map k) Source # Methods emptyTM :: Map k a Source # lookupTM :: Key (Map k) -> Map k b -> Maybe b Source # alterTM :: Key (Map k) -> XT b -> Map k b -> Map k b Source # mapTM :: (a -> b) -> Map k a -> Map k b Source # foldTM :: (a -> b -> b) -> Map k a -> b -> b Source #
(Eq (Key m), TrieMap m) => TrieMap (GenMap m) #
Instance details Defined in TrieMap Associated Types type Key (GenMap m) Source # Methods emptyTM :: GenMap m a Source # lookupTM :: Key (GenMap m) -> GenMap m b -> Maybe b Source # alterTM :: Key (GenMap m) -> XT b -> GenMap m b -> GenMap m b Source # mapTM :: (a -> b) -> GenMap m a -> GenMap m b Source # foldTM :: (a -> b -> b) -> GenMap m a -> b -> b Source #
TrieMap m => TrieMap (ListMap m) #
Instance details Defined in TrieMap Associated Types type Key (ListMap m) Source # Methods emptyTM :: ListMap m a Source # lookupTM :: Key (ListMap m) -> ListMap m b -> Maybe b Source # alterTM :: Key (ListMap m) -> XT b -> ListMap m b -> ListMap m b Source # mapTM :: (a -> b) -> ListMap m a -> ListMap m b Source # foldTM :: (a -> b -> b) -> ListMap m a -> b -> b Source #
TrieMap m => TrieMap (MaybeMap m) #
Instance details Defined in TrieMap Associated Types type Key (MaybeMap m) Source # Methods emptyTM :: MaybeMap m a Source # lookupTM :: Key (MaybeMap m) -> MaybeMap m b -> Maybe b Source # alterTM :: Key (MaybeMap m) -> XT b -> MaybeMap m b -> MaybeMap m b Source # mapTM :: (a -> b) -> MaybeMap m a -> MaybeMap m b Source # foldTM :: (a -> b -> b) -> MaybeMap m a -> b -> b Source #

insertTM :: TrieMap m => Key m -> a -> m a -> m a Source #

deleteTM :: TrieMap m => Key m -> m a -> m a Source #

lkDFreeVar :: Var -> DVarEnv a -> Maybe a Source #

xtDFreeVar :: Var -> XT a -> DVarEnv a -> DVarEnv a Source #

lkDNamed :: NamedThing n => n -> DNameEnv a -> Maybe a Source #

xtDNamed :: NamedThing n => n -> XT a -> DNameEnv a -> DNameEnv a Source #

(>.>) :: (a -> b) -> (b -> c) -> a -> c infixr 1 Source #

(|>) :: a -> (a -> b) -> b infixr 1 Source #

(|>>) :: TrieMap m2 => (XT (m2 a) -> m1 (m2 a) -> m1 (m2 a)) -> (m2 a -> m2 a) -> m1 (m2 a) -> m1 (m2 a) infixr 1 Source #

Maps over Core expressions

Instances

Maps over Types

Instances

Instances

With explicit scoping

Maps over Maybe values

Instances

Maps over List values

Instances

Maps over Literals

Map for compressing leaves. See Note [Compressed TrieMap]

Instances

TrieMap class

Instances

Maps over `Type`s

Maps over `Maybe` values

Maps over `List` values

Maps over `Literal`s

`TrieMap` class