Define goals in Kleisli
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@ -117,7 +117,6 @@ module Monoidal {ℓa ℓb : Level} (ℂ : Category ℓa ℓb) where
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module Kleisli {ℓa ℓb : Level} (ℂ : Category ℓa ℓb) where
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module Kleisli {ℓa ℓb : Level} (ℂ : Category ℓa ℓb) where
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private
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private
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ℓ = ℓa ⊔ ℓb
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ℓ = ℓa ⊔ ℓb
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module ℂ = Category ℂ
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module ℂ = Category ℂ
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open ℂ using (Arrow ; 𝟙 ; Object ; _∘_ ; _>>>_)
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open ℂ using (Arrow ; 𝟙 ; Object ; _∘_ ; _>>>_)
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@ -166,6 +165,13 @@ module Kleisli {ℓa ℓb : Level} (ℂ : Category ℓa ℓb) where
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Fusion = {X Y Z : Object} {g : ℂ [ Y , Z ]} {f : ℂ [ X , Y ]}
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Fusion = {X Y Z : Object} {g : ℂ [ Y , Z ]} {f : ℂ [ X , Y ]}
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→ fmap (g ∘ f) ≡ fmap g ∘ fmap f
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→ fmap (g ∘ f) ≡ fmap g ∘ fmap f
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-- In the ("foreign") formulation of a monad `IsNatural`'s analogue here would be:
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IsNaturalForeign : Set _
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IsNaturalForeign = {X : Object} → join {X} ∘ fmap join ≡ join ∘ join
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IsInverse : Set _
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IsInverse = {X : Object} → join {X} ∘ pure ≡ 𝟙 × join {X} ∘ fmap pure ≡ 𝟙
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record IsMonad (raw : RawMonad) : Set ℓ where
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record IsMonad (raw : RawMonad) : Set ℓ where
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open RawMonad raw public
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open RawMonad raw public
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field
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field
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@ -271,6 +277,21 @@ module Kleisli {ℓa ℓb : Level} (ℂ : Category ℓa ℓb) where
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proj₁ μNatTrans = μTrans
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proj₁ μNatTrans = μTrans
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proj₂ μNatTrans = μNatural
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proj₂ μNatTrans = μNatural
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isNaturalForeign : IsNaturalForeign
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isNaturalForeign = begin
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join ∘ fmap join ≡⟨ {!!} ⟩
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join ∘ join ∎
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isInverse : IsInverse
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isInverse = inv-l , inv-r
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where
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inv-l = begin
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join ∘ pure ≡⟨ {!!} ⟩
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𝟙 ∎
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inv-r = begin
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join ∘ fmap pure ≡⟨ {!!} ⟩
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𝟙 ∎
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record Monad : Set ℓ where
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record Monad : Set ℓ where
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field
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field
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raw : RawMonad
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raw : RawMonad
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@ -330,19 +351,37 @@ module _ {ℓa ℓb : Level} {ℂ : Category ℓa ℓb} where
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Kleisli.Monad.isMonad (forth m) = forthIsMonad (M.Monad.isMonad m)
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Kleisli.Monad.isMonad (forth m) = forthIsMonad (M.Monad.isMonad m)
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module _ (m : K.Monad) where
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module _ (m : K.Monad) where
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private
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open K.Monad m
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open K.Monad m
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module MR = M.RawMonad
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module MR = M.RawMonad
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module MI = M.IsMonad
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backRaw : M.RawMonad
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backRaw : M.RawMonad
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MR.R backRaw = R
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MR.R backRaw = R
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MR.ηNatTrans backRaw = ηNatTrans
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MR.ηNatTrans backRaw = ηNatTrans
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MR.μNatTrans backRaw = μNatTrans
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MR.μNatTrans backRaw = μNatTrans
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module MI = M.IsMonad
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private
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-- also prove these in K.Monad!
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open MR backRaw
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module R = Functor (MR.R backRaw)
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backIsMonad : M.IsMonad backRaw
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backIsMonad : M.IsMonad backRaw
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MI.isAssociative backIsMonad = {!isAssociative!}
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MI.isAssociative backIsMonad {X} = begin
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MI.isInverse backIsMonad = {!!}
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μ X ∘ R.func→ (μ X) ≡⟨⟩
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join ∘ fmap (μ X) ≡⟨⟩
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join ∘ fmap join ≡⟨ isNaturalForeign ⟩
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join ∘ join ≡⟨⟩
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μ X ∘ μ (R.func* X) ∎
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MI.isInverse backIsMonad {X} = inv-l , inv-r
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where
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inv-l = begin
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μ X ∘ η (R.func* X) ≡⟨⟩
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join ∘ pure ≡⟨ proj₁ isInverse ⟩
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𝟙 ∎
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inv-r = begin
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μ X ∘ R.func→ (η X) ≡⟨⟩
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join ∘ fmap pure ≡⟨ proj₂ isInverse ⟩
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𝟙 ∎
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back : K.Monad → M.Monad
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back : K.Monad → M.Monad
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Monoidal.Monad.raw (back m) = backRaw m
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Monoidal.Monad.raw (back m) = backRaw m
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