mirror of
https://github.com/idris-lang/Idris2.git
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318 lines
6.7 KiB
Idris
318 lines
6.7 KiB
Idris
module DeriveFunctor
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import Deriving.Functor
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%language ElabReflection
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%default covering
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%logging "derive.functor.clauses" 1
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%logging "derive.functor.assumption" 10
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list : Functor List
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list = %runElab derive
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maybe : Functor Maybe
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maybe = %runElab derive
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either : Functor (Either err)
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either = %runElab derive
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namespace Constant
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record Constant (a, b : Type) where
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constructor MkConstant
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runConstant : a
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constant : Functor (Constant a)
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constant = %runElab derive
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namespace Vect
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public export
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data Vect : Nat -> Type -> Type where
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Nil : Vect Z a
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(::) : a -> Vect n a -> Vect (S n) a
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export %hint
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total
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vect : Functor (Vect n)
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vect = %runElab derive
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namespace BigTree
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data BigTree a
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= End a
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| Branch String (List a) (Bool -> BigTree a)
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| Rose (List (BigTree a))
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total
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bigTree : Functor BigTree
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bigTree = %runElab derive
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namespace Matrix
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record Matrix m n a where
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constructor MkMatrix
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runMatrix : Vect m (Vect n a)
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total
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matrix : Functor (Matrix m n)
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matrix = %runElab derive
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namespace Tm
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data Op : Nat -> Type where
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Neg : Op 1
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Add : Op 2
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data Tm : Type -> Type where
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Var : a -> Tm a
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Call : Op n -> Vect n (Tm a) -> Tm a
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Lam : Tm (Maybe a) -> Tm a
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total
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tm : Functor Tm
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tm = %runElab derive
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namespace Forest
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data Tree : Type -> Type
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data Forest : Type -> Type
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data Tree : Type -> Type where
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Leaf : a -> Tree a
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Node : Forest a -> Tree a
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data Forest : Type -> Type where
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Empty : Forest a
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Plant : Tree a -> Forest a -> Forest a
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%hint total tree : Functor Tree
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%hint total forest : Functor Forest
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tree = %runElab derive {mutualWith = [`{Forest}]}
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forest = %runElab derive {mutualWith = [`{Tree}]}
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namespace List1
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data List1 : Type -> Type where
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MkList1 : (a, Maybe (List1 a)) -> List1 a
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total
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list1 : Functor List1
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list1 = %runElab derive
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namespace Full
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data Full a = Leaf a | Node (Full (a, a))
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total
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full : Functor Full
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full = %runElab derive
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failing "Negative occurrence of a"
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data NOT : Type -> Type where
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MkNOT : (a -> Void) -> NOT a
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total
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negative : Functor NOT
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negative = %runElab derive
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namespace Colist
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data Colist a = Nil | (::) a (Inf (Colist a))
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total
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colist : Functor Colist
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colist = %runElab derive
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namespace LAZY
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record LAZY (a : Type) where
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constructor MkLAZY
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wrapped : Lazy a
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total
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lazy : Functor LAZY
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lazy = %runElab derive
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namespace Rose
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data Rose a = Node (List (Lazy (Rose a)))
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total
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rose : Functor Rose
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rose = %runElab derive
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namespace Free
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data Free : (Type -> Type) -> Type -> Type where
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Pure : a -> Free f a
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Bind : f a -> (a -> Free f b) -> Free f b
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total
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free : Functor (Free f)
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free = %runElab derive
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namespace MaybeT
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record MaybeT (m : Type -> Type) (a : Type) where
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constructor MkMaybeT
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runMaybeT : m (Maybe a)
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total
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maybeT : Functor m => Functor (MaybeT m)
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maybeT = %runElab derive
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namespace TreeT
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data TreeT : (lbl : Type) -> (Type -> Type -> Type) -> Type -> Type where
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MkTreeT : lbl -> layer a (TreeT lbl layer a) -> TreeT lbl layer a
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%hint
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treeT : Bifunctor layer => Functor (TreeT lbl layer)
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treeT = %runElab derive {treq = CoveringOnly}
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record Tree (a : Type) where
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constructor MkTree
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runTree : TreeT () Either a
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tree : Functor Tree
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tree = %runElab derive {treq = CoveringOnly}
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namespace Implicit
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data IVect : {n : Nat} -> (a : Type) -> Type where
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MkIVect : (v : Vect n a) -> IVect {n} a
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ivect : {m : Nat} -> Functor (IVect {n = m})
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ivect = %runElab derive
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namespace EqMap
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data EqMap : (key : Type) -> Eq key => (val : Type) -> Type where
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MkEqMap : (eq : Eq key) => List (key, val) -> EqMap key @{eq} val
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empty : Eq key => EqMap key val
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empty = MkEqMap []
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insert : (eq : Eq key) => key -> val -> EqMap key @{eq} val -> EqMap key @{eq} val
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insert k v (MkEqMap kvs) = MkEqMap ((k, v) :: filter ((k /=) . fst) kvs)
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fromList : Eq key => List (key, val) -> EqMap key val
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fromList = foldr (uncurry insert) empty
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toList : EqMap key @{eq} val -> List (key, val)
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toList (MkEqMap kvs) = kvs
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test : EqMap.toList (fromList [(1,2), (1,3), (2, 4), (5, 3), (1, 0)])
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=== [(1,2), (2, 4), (5, 3)]
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test = Refl
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eqMap : (eq : Eq key) => Functor (EqMap key @{eq})
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eqMap = %runElab derive
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namespace Cont
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data Cont r a = MkCont ((a -> r) -> r)
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cont : Functor (Cont r)
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cont = %runElab derive
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||| Continuation with short-circuiting error cont
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data Cont2 r e a = MkCont2 ((e -> r) -> (a -> r) -> r)
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cont2 : Functor (Cont2 r e)
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cont2 = %runElab derive
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||| Uncurried version of continuation with short-circuiting error cont
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data Cont2' r e a = MkCont2' (((a -> r), (e -> r)) -> r)
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cont2' : Functor (Cont2' r e)
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cont2' = %runElab derive
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||| Throw in lazyness
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data Cont2'' r e a = MkCont2'' (Lazy ((Lazy a -> r), (e -> r)) -> r)
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cont2'' : Functor (Cont2'' r e)
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cont2'' = %runElab derive
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namespace Implicit
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data WithImplicits : Type -> Type where
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MkImplicit : {x : a} -> (0 y : a) -> WithImplicits a
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OtherImplicit : {0 x : a} -> a => WithImplicits a
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LastOne : {auto 0 _ : a} -> a -> WithImplicits a
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total
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withImplicits : Functor WithImplicits
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withImplicits = %runElab derive
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failing "Couldn't find a `Functor' instance for the type constructor DeriveFunctor.Wrap"
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record Wrap (a : Type) where
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constructor MkWrap
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unWrap : a
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data Indirect : Type -> Type where
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MkIndirect : Wrap a -> Indirect a
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total
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indirect : Functor Indirect
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indirect = %runElab derive
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namespace BifunctorFail
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data Tree : (l, n : Type) -> Type where
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Leaf : l -> Tree l n
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Node : Tree l n -> n -> Tree l n -> Tree l n
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-- this one will succeed
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total
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tree : Functor (Tree l)
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tree = %runElab derive
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failing "Couldn't find a `Bifunctor' instance for the type constructor DeriveFunctor.BifunctorFail.Tree"
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record Tree' (a : Type) where
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constructor MkTree'
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getTree : Tree a a
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-- and this one will fail
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tree' : Functor Tree'
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tree' = %runElab derive
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failing "Expected a type constructor, got: Prelude.Basics.id {a = Type}"
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total
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functor : Functor Prelude.id
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functor = %runElab derive
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namespace Triple
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data Triple a b c = MkTriple a b c
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%hint
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triple : Functor (Triple a b)
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triple = %runElab derive
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data Tree3 a = Node (Triple a () (Tree3 a))
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failing "The term DeriveFunctor.Triple.Triple a Builtin.Unit is not free of a"
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tree : Functor Tree3
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tree = %runElab derive
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namespace WriterList
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data WList : (w, u, a : Type) -> Type where
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(::) : (w, a) -> WList {- oops -} a u a -> WList w u a
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Nil : WList w u a
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failing "The term DeriveFunctor.WriterList.WList a u is not free of a"
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wlist : Functor (WList w ())
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wlist = %runElab derive
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