Rename RR to Romap
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@ -166,23 +166,23 @@ module Kleisli {ℓa ℓb : Level} (ℂ : Category ℓa ℓb) where
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-- are not generally types.
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record RawMonad : Set ℓ where
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field
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RR : Object → Object
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Romap : Object → Object
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-- Note name-change from [voe]
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pure : {X : Object} → ℂ [ X , RR X ]
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bind : {X Y : Object} → ℂ [ X , RR Y ] → ℂ [ RR X , RR Y ]
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pure : {X : Object} → ℂ [ X , Romap X ]
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bind : {X Y : Object} → ℂ [ X , Romap Y ] → ℂ [ Romap X , Romap Y ]
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-- | functor map
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--
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-- This should perhaps be defined in a "Klesli-version" of functors as well?
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fmap : ∀ {A B} → ℂ [ A , B ] → ℂ [ RR A , RR B ]
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fmap : ∀ {A B} → ℂ [ A , B ] → ℂ [ Romap A , Romap B ]
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fmap f = bind (pure ∘ f)
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-- | Composition of monads aka. the kleisli-arrow.
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_>=>_ : {A B C : Object} → ℂ [ A , RR B ] → ℂ [ B , RR C ] → ℂ [ A , RR C ]
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_>=>_ : {A B C : Object} → ℂ [ A , Romap B ] → ℂ [ B , Romap C ] → ℂ [ A , Romap C ]
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f >=> g = f >>> (bind g)
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-- | Flattening nested monads.
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join : {A : Object} → ℂ [ RR (RR A) , RR A ]
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join : {A : Object} → ℂ [ Romap (Romap A) , Romap A ]
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join = bind 𝟙
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------------------
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@ -192,10 +192,10 @@ module Kleisli {ℓa ℓb : Level} (ℂ : Category ℓa ℓb) where
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-- There may be better names than what I've chosen here.
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IsIdentity = {X : Object}
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→ bind pure ≡ 𝟙 {RR X}
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IsNatural = {X Y : Object} (f : ℂ [ X , RR Y ])
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→ bind pure ≡ 𝟙 {Romap X}
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IsNatural = {X Y : Object} (f : ℂ [ X , Romap Y ])
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→ pure >>> (bind f) ≡ f
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IsDistributive = {X Y Z : Object} (g : ℂ [ Y , RR Z ]) (f : ℂ [ X , RR Y ])
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IsDistributive = {X Y Z : Object} (g : ℂ [ Y , Romap Z ]) (f : ℂ [ X , Romap Y ])
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→ (bind f) >>> (bind g) ≡ bind (f >=> g)
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-- | Functor map fusion.
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@ -239,7 +239,7 @@ module Kleisli {ℓa ℓb : Level} (ℂ : Category ℓa ℓb) where
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-- | This formulation gives rise to the following endo-functor.
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private
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rawR : RawFunctor ℂ ℂ
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RawFunctor.func* rawR = RR
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RawFunctor.func* rawR = Romap
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RawFunctor.func→ rawR = fmap
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isFunctorR : IsFunctor ℂ ℂ rawR
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@ -401,23 +401,21 @@ module _ {ℓa ℓb : Level} {ℂ : Category ℓa ℓb} where
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module M = Monoidal ℂ
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module K = Kleisli ℂ
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-- Note similarity with locally defined things in Kleisly.RawMonad!!
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module _ (m : M.RawMonad) where
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open M.RawMonad m
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forthRaw : K.RawMonad
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K.RawMonad.RR forthRaw = Romap
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K.RawMonad.Romap forthRaw = Romap
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K.RawMonad.pure forthRaw = pureT _
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K.RawMonad.bind forthRaw = bind
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module _ {raw : M.RawMonad} (m : M.IsMonad raw) where
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private
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module MI = M.IsMonad m
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module KI = K.IsMonad
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forthIsMonad : K.IsMonad (forthRaw raw)
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KI.isIdentity forthIsMonad = proj₂ MI.isInverse
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KI.isNatural forthIsMonad = MI.isNatural
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KI.isDistributive forthIsMonad = MI.isDistributive
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K.IsMonad.isIdentity forthIsMonad = proj₂ MI.isInverse
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K.IsMonad.isNatural forthIsMonad = MI.isNatural
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K.IsMonad.isDistributive forthIsMonad = MI.isDistributive
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forth : M.Monad → K.Monad
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Kleisli.Monad.raw (forth m) = forthRaw (M.Monad.raw m)
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@ -476,7 +474,7 @@ module _ {ℓa ℓb : Level} {ℂ : Category ℓa ℓb} where
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bind ∎
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where
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joinT = proj₁ joinNT
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lem : (f : Arrow X (RR Y)) → bind (f >>> pure) >>> bind 𝟙 ≡ bind f
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lem : (f : Arrow X (Romap Y)) → bind (f >>> pure) >>> bind 𝟙 ≡ bind f
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lem f = begin
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bind (f >>> pure) >>> bind 𝟙
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≡⟨ isDistributive _ _ ⟩
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@ -492,7 +490,7 @@ module _ {ℓa ℓb : Level} {ℂ : Category ℓa ℓb} where
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x & f = f x
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forthRawEq : forthRaw (backRaw m) ≡ K.Monad.raw m
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K.RawMonad.RR (forthRawEq _) = RR
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K.RawMonad.Romap (forthRawEq _) = Romap
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K.RawMonad.pure (forthRawEq _) = pure
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-- stuck
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K.RawMonad.bind (forthRawEq i) = bindEq i
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