Safe Haskell | None |
---|---|
Language | Haskell2010 |
Synopsis
- shallowTyCoVarsOfType :: Type -> TyCoVarSet
- shallowTyCoVarsOfTypes :: [Type] -> TyCoVarSet
- tyCoVarsOfType :: Type -> TyCoVarSet
- tyCoVarsOfTypes :: [Type] -> TyCoVarSet
- tyCoVarsOfTypeDSet :: Type -> DTyCoVarSet
- tyCoVarsOfTypesDSet :: [Type] -> DTyCoVarSet
- tyCoFVsBndr :: ForAllTyBinder -> FV -> FV
- tyCoFVsVarBndr :: Var -> FV -> FV
- tyCoFVsVarBndrs :: [Var] -> FV -> FV
- tyCoFVsOfType :: Type -> FV
- tyCoVarsOfTypeList :: Type -> [TyCoVar]
- tyCoFVsOfTypes :: [Type] -> FV
- tyCoVarsOfTypesList :: [Type] -> [TyCoVar]
- deepTcvFolder :: TyCoFolder TyCoVarSet (Endo TyCoVarSet)
- shallowTyCoVarsOfTyVarEnv :: TyVarEnv Type -> TyCoVarSet
- shallowTyCoVarsOfCoVarEnv :: CoVarEnv Coercion -> TyCoVarSet
- shallowTyCoVarsOfCo :: Coercion -> TyCoVarSet
- shallowTyCoVarsOfCos :: [Coercion] -> TyCoVarSet
- tyCoVarsOfCo :: Coercion -> TyCoVarSet
- tyCoVarsOfCos :: [Coercion] -> TyCoVarSet
- tyCoVarsOfMCo :: MCoercion -> TyCoVarSet
- coVarsOfType :: Type -> CoVarSet
- coVarsOfTypes :: [Type] -> CoVarSet
- coVarsOfCo :: Coercion -> CoVarSet
- coVarsOfCos :: [Coercion] -> CoVarSet
- tyCoVarsOfCoDSet :: Coercion -> DTyCoVarSet
- tyCoFVsOfCo :: Coercion -> FV
- tyCoFVsOfCos :: [Coercion] -> FV
- tyCoVarsOfCoList :: Coercion -> [TyCoVar]
- almostDevoidCoVarOfCo :: CoVar -> Coercion -> Bool
- injectiveVarsOfType :: Bool -> Type -> FV
- injectiveVarsOfTypes :: Bool -> [Type] -> FV
- isInjectiveInType :: TyVar -> Type -> Bool
- invisibleVarsOfType :: Type -> FV
- invisibleVarsOfTypes :: [Type] -> FV
- anyFreeVarsOfType :: (TyCoVar -> Bool) -> Type -> Bool
- anyFreeVarsOfTypes :: (TyCoVar -> Bool) -> [Type] -> Bool
- anyFreeVarsOfCo :: (TyCoVar -> Bool) -> Coercion -> Bool
- noFreeVarsOfType :: Type -> Bool
- noFreeVarsOfTypes :: [Type] -> Bool
- noFreeVarsOfCo :: Coercion -> Bool
- tyConsOfType :: Type -> UniqSet TyCon
- tyConsOfTypes :: [Type] -> UniqSet TyCon
- visVarsOfTypes :: [Type] -> Pair TyCoVarSet
- visVarsOfType :: Type -> Pair TyCoVarSet
- occCheckExpand :: [Var] -> Type -> Maybe Type
- scopedSort :: [TyCoVar] -> [TyCoVar]
- tyCoVarsOfTypeWellScoped :: Type -> [TyVar]
- tyCoVarsOfTypesWellScoped :: [Type] -> [TyVar]
- closeOverKindsDSet :: DTyVarSet -> DTyVarSet
- closeOverKindsList :: [TyVar] -> [TyVar]
- closeOverKinds :: TyCoVarSet -> TyCoVarSet
- newtype Endo a = Endo {
- appEndo :: a -> a
- runTyCoVars :: Endo TyCoVarSet -> TyCoVarSet
Documentation
shallowTyCoVarsOfTypes :: [Type] -> TyCoVarSet Source #
tyCoVarsOfType :: Type -> TyCoVarSet Source #
tyCoVarsOfTypes :: [Type] -> TyCoVarSet Source #
tyCoVarsOfTypeDSet :: Type -> DTyCoVarSet Source #
tyCoFVsOfType
that returns free variables of a type in a deterministic
set. For explanation of why using VarSet
is not deterministic see
Note [Deterministic FV] in GHC.Utils.FV.
tyCoVarsOfTypesDSet :: [Type] -> DTyCoVarSet Source #
Returns free variables of types, including kind variables as a deterministic set. For type synonyms it does not expand the synonym.
tyCoFVsBndr :: ForAllTyBinder -> FV -> FV Source #
tyCoFVsOfType :: Type -> FV Source #
The worker for tyCoFVsOfType
and tyCoFVsOfTypeList
.
The previous implementation used unionVarSet
which is O(n+m) and can
make the function quadratic.
It's exported, so that it can be composed with
other functions that compute free variables.
See Note [FV naming conventions] in GHC.Utils.FV.
Eta-expanded because that makes it run faster (apparently) See Note [FV eta expansion] in GHC.Utils.FV for explanation.
tyCoVarsOfTypeList :: Type -> [TyCoVar] Source #
tyCoFVsOfType
that returns free variables of a type in deterministic
order. For explanation of why using VarSet
is not deterministic see
Note [Deterministic FV] in GHC.Utils.FV.
tyCoFVsOfTypes :: [Type] -> FV Source #
tyCoVarsOfTypesList :: [Type] -> [TyCoVar] Source #
Returns free variables of types, including kind variables as a deterministically ordered list. For type synonyms it does not expand the synonym.
shallowTyCoVarsOfTyVarEnv :: TyVarEnv Type -> TyCoVarSet Source #
Returns free variables of types, including kind variables as a non-deterministic set. For type synonyms it does not expand the synonym.
shallowTyCoVarsOfCos :: [Coercion] -> TyCoVarSet Source #
tyCoVarsOfCo :: Coercion -> TyCoVarSet Source #
tyCoVarsOfCos :: [Coercion] -> TyCoVarSet Source #
tyCoVarsOfMCo :: MCoercion -> TyCoVarSet Source #
coVarsOfType :: Type -> CoVarSet Source #
coVarsOfTypes :: [Type] -> CoVarSet Source #
coVarsOfCo :: Coercion -> CoVarSet Source #
coVarsOfCos :: [Coercion] -> CoVarSet Source #
tyCoVarsOfCoDSet :: Coercion -> DTyCoVarSet Source #
Get a deterministic set of the vars free in a coercion
tyCoFVsOfCo :: Coercion -> FV Source #
tyCoFVsOfCos :: [Coercion] -> FV Source #
tyCoVarsOfCoList :: Coercion -> [TyCoVar] Source #
almostDevoidCoVarOfCo :: CoVar -> Coercion -> Bool Source #
Given a covar and a coercion, returns True if covar is almost devoid in the coercion. That is, covar can only appear in Refl and GRefl. See last wrinkle in Note [Unused coercion variable in ForAllCo] in GHC.Core.Coercion
:: Bool | Should we look under injective type families? See Note [Coverage condition for injective type families] in GHC.Tc.Instance.Family. |
-> Type | |
-> FV |
Returns the free variables of a Type
that are in injective positions.
Specifically, it finds the free variables while:
- Expanding type synonyms
- Ignoring the coercion in
(ty |> co)
- Ignoring the non-injective fields of a
TyConApp
For example, if F
is a non-injective type family, then:
injectiveTyVarsOf( Either c (Maybe (a, F b c)) ) = {a,c}
If
, then knowing injectiveVarsOfType
ty = itvsty
fixes itvs
.
More formally, if
a
is in
and injectiveVarsOfType
tyS1(ty) ~ S2(ty)
,
then S1(a) ~ S2(a)
,
where S1
and S2
are arbitrary substitutions.
See Note [When does a tycon application need an explicit kind signature?]
.
:: Bool | look under injective type families? See Note [Coverage condition for injective type families] in GHC.Tc.Instance.Family. |
-> [Type] | |
-> FV |
invisibleVarsOfType :: Type -> FV Source #
Returns the set of variables that are used invisibly anywhere within the given type. A variable will be included even if it is used both visibly and invisibly. An invisible use site includes: * In the kind of a variable * In the kind of a bound variable in a forall * In a coercion * In a Specified or Inferred argument to a function See Note [VarBndrs, ForAllTyBinders, TyConBinders, and visibility] in GHC.Core.TyCo.Rep
invisibleVarsOfTypes :: [Type] -> FV Source #
Like invisibleVarsOfType
, but for many types.
noFreeVarsOfType :: Type -> Bool Source #
noFreeVarsOfTypes :: [Type] -> Bool Source #
noFreeVarsOfCo :: Coercion -> Bool Source #
Free type constructors
tyConsOfType :: Type -> UniqSet TyCon Source #
All type constructors occurring in the type; looking through type synonyms, but not newtypes. When it finds a Class, it returns the class TyCon.
Free vars with visible/invisible separate
visVarsOfTypes :: [Type] -> Pair TyCoVarSet Source #
visVarsOfType :: Type -> Pair TyCoVarSet Source #
Retrieve the free variables in this type, splitting them based on whether they are used visibly or invisibly. Invisible ones come first.
Occurrence-check expansion
Well-scoped free variables
scopedSort :: [TyCoVar] -> [TyCoVar] Source #
Do a topological sort on a list of tyvars, so that binders occur before occurrences E.g. given [ a::k, k::*, b::k ] it'll return a well-scoped list [ k::*, a::k, b::k ]
This is a deterministic sorting operation (that is, doesn't depend on Uniques).
It is also meant to be stable: that is, variables should not be reordered unnecessarily. This is specified in Note [ScopedSort] See also Note [Ordering of implicit variables] in GHC.Rename.HsType
tyCoVarsOfTypeWellScoped :: Type -> [TyVar] Source #
Get the free vars of a type in scoped order
tyCoVarsOfTypesWellScoped :: [Type] -> [TyVar] Source #
Get the free vars of types in scoped order
Closing over kinds
closeOverKindsDSet :: DTyVarSet -> DTyVarSet Source #
Add the kind variables free in the kinds of the tyvars in the given set. Returns a deterministic set.
closeOverKindsList :: [TyVar] -> [TyVar] Source #
Add the kind variables free in the kinds of the tyvars in the given set. Returns a deterministically ordered list.
Raw materials
The monoid of endomorphisms under composition.
>>>
let computation = Endo ("Hello, " ++) <> Endo (++ "!")
>>>
appEndo computation "Haskell"
"Hello, Haskell!"
Instances
Monoid (Endo a) | Since: base-2.1 | ||||
Semigroup (Endo a) | Since: base-4.9.0.0 | ||||
Generic (Endo a) | |||||
Defined in Data.Semigroup.Internal
| |||||
type Rep (Endo a) | Since: base-4.7.0.0 | ||||
Defined in Data.Semigroup.Internal |
runTyCoVars :: Endo TyCoVarSet -> TyCoVarSet Source #