Functor.hascasl.output revision 98b443335df9c77328edb9dbf3ed565535317249
vars a, b, c : Type; x : a; f : a -> b; g : b -> c
ops __comp__ : (b -> c) * (a -> b) -> a -> c;
id : a -> a
. id x = x
. (g comp f) x = g (f x);
class Functor < Type -> Type
{vars a, b, c : Type; F : Functor; f : a -> b; g : b -> c
op map : (a -> b) -> F a -> F b
. map id = (id : F a -> F a)
. (map (g comp f) : F a -> F c) = map g comp map f;
}
class PolyFunctor < Functor
class PolyBifunctor < Type -> PolyFunctor
vars F : Functor; a, b : Type
type Alg F a := F a -> a
op __::__->__ : Pred ((a -> b) * (Alg F a) * (Alg F b))
class DTFunctor < Functor
{vars F : DTFunctor; a : Type
type InitialCarrier F
ops initialAlg : Alg F (InitialCarrier F);
fold : Alg F a -> InitialCarrier F -> a
vars alpha : Alg F a; g : InitialCarrier F -> a
. g :: initialAlg -> alpha <=> g = fold alpha;
}
class PolyFunctor < DTFunctor
var G : PolyBifunctor
type ParamDT G a := InitialCarrier (G a)
type ParamDT G : DTFunctor
vars l : ParamDT G a; f : a -> a
. map f l = fold initialAlg l;
classes
DTFunctor : Type -> Type;
Functor : Type -> Type;
PolyBifunctor : Type -> Type -> Type;
PolyFunctor : Type -> Type
classes
DTFunctor < Functor;
PolyBifunctor < Type -> PolyFunctor;
PolyFunctor < DTFunctor
types
Alg : Functor -> Type -> Type;
InitialCarrier : DTFunctor -> Type;
ParamDT : PolyBifunctor -> DTFunctor
types
Alg := \ F : Functor . \ a : Type . F a -> a;
ParamDT := \ G : PolyBifunctor . \ a : Type . InitialCarrier (G a)
vars
F : DTFunctor %(var_183)%;
G : PolyBifunctor %(var_250)%;
a : Type %(var_184)%;
b : Type %(var_180)%;
c : Type %(var_42)%
op __::__->__ : forall F : Functor; a : Type; b : Type
. Pred ((a -> b) * Alg F a * Alg F b)
%(op)%
op __comp__ : forall a : Type; b : Type; c : Type
. (b -> c) * (a -> b) -> a -> c
%(op)%
op fold : forall F : DTFunctor; a : Type
. Alg F a -> InitialCarrier F -> a
%(op)%
op id : forall a : Type . a -> a %(op)%
op initialAlg : forall F : DTFunctor . Alg F (InitialCarrier F)
%(op)%
op map : forall a : Type; b : Type; F : Functor
. (a -> b) -> F a -> F b
%(op)%
vars
alpha : Alg F a;
f : a -> a;
g : InitialCarrier F -> a;
l : ParamDT G a;
x : a
forall a : Type; x : a . id x = x
forall a : Type; b : Type; c : Type; f : a -> b; g : b -> c; x : a
. (g comp f) x = g (f x)
forall F : Functor; a : Type . map id = (id : F a -> F a)
forall
F : Functor; a : Type; b : Type; c : Type; f : a -> b; g : b -> c
. (map (g comp f) : F a -> F c) = map g comp map f
forall
F : DTFunctor; a : Type; alpha : Alg F a; g : InitialCarrier F -> a
. g :: initialAlg -> alpha <=> g = fold alpha
forall G : PolyBifunctor; a : Type; f : a -> a; l : ParamDT G a
. map f l = fold initialAlg l
### Hint 1.6, is type variable 'a'
### Hint 1.8, is type variable 'b'
### Hint 1.10, is type variable 'c'
### Hint 1.20, not a class 'a'
### Hint 1.26, not a class 'a'
### Hint 1.26, not a class 'b'
### Hint 1.37, not a class 'b'
### Hint 1.37, not a class 'c'
### Hint 8.7, is type variable 'a'
### Hint 8.7, rebound type variable 'a'
### Hint 8.9, is type variable 'b'
### Hint 8.9, rebound type variable 'b'
### Hint 8.11, is type variable 'c'
### Hint 8.11, rebound type variable 'c'
### Hint 8.20, is type variable 'F'
### Hint 8.33, not a class 'a'
### Hint 8.33, not a class 'b'
### Hint 8.32, rebound variable 'f'
### Hint 8.44, not a class 'b'
### Hint 8.44, not a class 'c'
### Hint 8.43, rebound variable 'g'
### Hint 16.5, is type variable 'F'
### Hint 16.5, rebound type variable 'F'
### Hint 16.17, is type variable 'a'
### Hint 16.17, rebound type variable 'a'
### Hint 16.19, is type variable 'b'
### Hint 16.19, rebound type variable 'b'
### Hint 21.5, is type variable 'F'
### Hint 21.5, rebound type variable 'F'
### Hint 21.19, is type variable 'a'
### Hint 21.19, rebound type variable 'a'
### Hint 25.10, not a kind 'Alg F a'
### Hint 25.22, not a kind 'InitialCarrier F -> a'
### Hint 25.21, rebound variable 'g'
### Hint 28.7, refined class 'PolyFunctor'
### Hint 29.5, is type variable 'G'
### Hint 33.7, not a kind 'ParamDT G a'
### Hint 33.23, not a class 'a'
### Hint 33.23, not a class 'a'
### Hint 33.22, rebound variable 'f'
### Hint 34.3,
constrain '(\ a : Type . InitialCarrier (G a)) : Functor' is unprovable
known kinds are: {Type -> Type}
*** Error 34.3,
in term '(op map :
forall a : Type; b : Type; F : Functor . (a -> b) -> F a -> F b)
(var f : a -> a)
(var l : ParamDT G a)
= (op fold :
forall F : DTFunctor; a : Type . Alg F a -> InitialCarrier F -> a)
(op initialAlg : forall F : DTFunctor . Alg F (InitialCarrier F))
(var l : ParamDT G a)' of type 'Unit'
unresolved constraints
'{(\ a : Type . InitialCarrier (G a)) : Functor}'