diff --git a/src/Cat/Category/Monad.agda b/src/Cat/Category/Monad.agda index d741ccd..3eef523 100644 --- a/src/Cat/Category/Monad.agda +++ b/src/Cat/Category/Monad.agda @@ -210,5 +210,10 @@ module _ {ℓa ℓb : Level} (ℂ : Category ℓa ℓb) where eqv : isEquiv M.Monad K.Monad forth eqv = gradLemma forth back fortheq backeq + open import Cat.Equivalence + + Monoidal≅Kleisli : M.Monad ≅ K.Monad + Monoidal≅Kleisli = forth , (back , (record { verso-recto = funExt backeq ; recto-verso = funExt fortheq })) + Monoidal≃Kleisli : M.Monad ≃ K.Monad Monoidal≃Kleisli = forth , eqv diff --git a/src/Cat/Category/Monad/Voevodsky.agda b/src/Cat/Category/Monad/Voevodsky.agda index 51cebec..5f27ed0 100644 --- a/src/Cat/Category/Monad/Voevodsky.agda +++ b/src/Cat/Category/Monad/Voevodsky.agda @@ -136,7 +136,7 @@ module voe {ℓa ℓb : Level} (ℂ : Category ℓa ℓb) where -- | to talk about voevodsky's construction. module _ (omap : Omap ℂ ℂ) (pure : {X : Object} → Arrow X (omap X)) where private - module E = Equivalence (Monoidal≃Kleisli ℂ) + module E = AreInverses (Monoidal≅Kleisli ℂ .proj₂ .proj₂) Monoidal→Kleisli : M.Monad → K.Monad Monoidal→Kleisli = E.obverse @@ -184,22 +184,16 @@ module voe {ℓa ℓb : Level} (ℂ : Category ℓa ℓb) where where t' : ((Monoidal→Kleisli ∘ Kleisli→Monoidal) ∘ §2-3.§2.toMonad {omap} {pure}) ≡ §2-3.§2.toMonad - t' = cong (\ φ → φ ∘ §2-3.§2.toMonad) {!re-ve!} cong-d : ∀ {ℓ} {A : Set ℓ} {ℓ'} {B : A → Set ℓ'} {x y : A} → (f : (x : A) → B x) → (eq : x ≡ y) → PathP (\ i → B (eq i)) (f x) (f y) cong-d f p = λ i → f (p i) + t' = cong (\ φ → φ ∘ §2-3.§2.toMonad) re-ve t : (§2-fromMonad ∘ (Monoidal→Kleisli ∘ Kleisli→Monoidal) ∘ §2-3.§2.toMonad {omap} {pure}) ≡ (§2-fromMonad ∘ §2-3.§2.toMonad) t = cong-d (\ f → §2-fromMonad ∘ f) t' u : (§2-fromMonad ∘ (Monoidal→Kleisli ∘ Kleisli→Monoidal) ∘ §2-3.§2.toMonad) m ≡ (§2-fromMonad ∘ §2-3.§2.toMonad) m - u = cong (\ f → f m) t -{- -(K.RawMonad.omap (K.Monad.raw (?0 ℂ omap pure m i (§2-3.§2.toMonad m))) x) - = (omap x) : Object -(K.RawMonad.pure (K.Monad.raw (?0 ℂ omap pure m x (§2-3.§2.toMonad x)))) - = pure : Arrow X (_350 ℂ omap pure m x x X) --} + u = cong (\ φ → φ m) t backEq : ∀ m → (back ∘ forth) m ≡ m backEq m = begin @@ -224,7 +218,7 @@ module voe {ℓa ℓb : Level} (ℂ : Category ℓa ℓb) where t : §1-fromMonad ∘ Kleisli→Monoidal ∘ Monoidal→Kleisli ∘ §2-3.§1.toMonad ≡ §1-fromMonad ∘ §2-3.§1.toMonad -- Why does `re-ve` not satisfy this goal? - t = cong (λ φ → §1-fromMonad ∘ φ ∘ §2-3.§1.toMonad) ({!ve-re!}) + t i m = §1-fromMonad (ve-re i (§2-3.§1.toMonad m)) voe-isEquiv : isEquiv (§2-3.§1 omap pure) (§2-3.§2 omap pure) forth voe-isEquiv = gradLemma forth back forthEq backEq