first-class-families-0.8.1.0: First-class type families
Safe HaskellSafe-Inferred
LanguageHaskell2010

Fcf.Utils

Description

Miscellaneous families.

Synopsis

Documentation

data Error :: Symbol -> Exp a Source #

Type-level error.

Instances

Instances details
type Eval (Error msg :: a -> Type) Source # 
Instance details

Defined in Fcf.Utils

type Eval (Error msg :: a -> Type) = TypeError ('Text msg) :: a

data TError :: ErrorMessage -> Exp a Source #

TypeError as a fcf.

Instances

Instances details
type Eval (TError msg :: a -> Type) Source # 
Instance details

Defined in Fcf.Utils

type Eval (TError msg :: a -> Type) = TypeError msg :: a

data Constraints :: [Constraint] -> Exp Constraint Source #

Conjunction of a list of constraints.

Instances

Instances details
type Eval (Constraints (a ': as) :: Constraint -> Type) Source # 
Instance details

Defined in Fcf.Utils

type Eval (Constraints (a ': as) :: Constraint -> Type) = (a, Eval (Constraints as))
type Eval (Constraints ('[] :: [Constraint])) Source # 
Instance details

Defined in Fcf.Utils

type Eval (Constraints ('[] :: [Constraint])) = ()

data TyEq :: a -> b -> Exp Bool Source #

Type equality.

Details

Expand

The base library also defines a similar (==); it differs from TyEq in the following ways:

  • TyEq is heterogeneous: its arguments may have different kinds;
  • TyEq is reflexive: TyEq a a always reduces to True even if a is a variable.

Instances

Instances details
type Eval (TyEq a b :: Bool -> Type) Source # 
Instance details

Defined in Fcf.Utils

type Eval (TyEq a b :: Bool -> Type)

type family Stuck :: a Source #

A stuck type that can be used like a type-level undefined.

class IsBool (b :: Bool) where Source #

Methods

_If :: (b ~ 'True => r) -> (b ~ 'False => r) -> r Source #

Instances

Instances details
IsBool 'False Source # 
Instance details

Defined in Fcf.Utils

Methods

_If :: ('False ~ 'True => r) -> ('False ~ 'False => r) -> r Source #

IsBool 'True Source # 
Instance details

Defined in Fcf.Utils

Methods

_If :: ('True ~ 'True => r) -> ('True ~ 'False => r) -> r Source #

data Case :: [Match j k] -> j -> Exp k Source #

(Limited) equivalent of \case { .. } syntax. Supports matching of exact values (-->) and final matches for any value (Any) or for passing value to subcomputation (Else). Examples:

type BoolToNat = Case
  [ 'True  --> 0
  , 'False --> 1
  ]

type NatToBool = Case
  [ 0 --> 'False
  , Any   'True
  ]

type ZeroOneOrSucc = Case
  [ 0  --> 0
  , 1  --> 1
  , Else   ((+) 1)
  ]

Instances

Instances details
type Eval (Case ms a :: k -> Type) Source # 
Instance details

Defined in Fcf.Utils

type Eval (Case ms a :: k -> Type)

data Match j k Source #

type (-->) = 'Match_ :: j -> k -> Match j k infix 0 Source #

Match concrete type in Case.

type Is = 'Is_ :: (j -> Exp Bool) -> k -> Match j k Source #

Match on predicate being successful with type in Case.

type Any = 'Any_ :: k -> Match j k Source #

Match any type in Case. Should be used as a final branch.

Note: this identifier conflicts with Any (from Fcf.Class.Foldable) Any (from Data.Monoid), and Any (from GHC.Exts).

We recommend importing this one qualified.

type Else = 'Else_ :: (j -> Exp k) -> Match j k Source #

Pass type being matched in Case to subcomputation. Should be used as a final branch.

From Data.Type.Bool

type family If (cond :: Bool) (tru :: k) (fls :: k) :: k where ... #

Type-level If. If True a b ==> a; If False a b ==> b

Equations

If 'True (tru :: k) (fls :: k) = tru 
If 'False (tru :: k) (fls :: k) = fls