{-# OPTIONS --safe #-}
module Cubical.Categories.Category.Properties where
open import Cubical.Foundations.Prelude
open import Cubical.Foundations.HLevels
open import Cubical.Categories.Category.Base
open Category
private
variable
ℓ ℓ' : Level
module _ {C : Category ℓ ℓ'} where
isSetHomP1 : ∀ {x y : C .ob} {n : C [ x , y ]}
→ isOfHLevelDep 1 (λ m → m ≡ n)
isSetHomP1 {x = x} {y} {n} = isOfHLevel→isOfHLevelDep 1 (λ m → isSetHom C m n)
isSetHomP2l : ∀ {y : C .ob}
→ isOfHLevelDep 2 (λ x → C [ x , y ])
isSetHomP2l = isOfHLevel→isOfHLevelDep 2 (λ a → isSetHom C {x = a})
isSetHomP2r : ∀ {x : C .ob}
→ isOfHLevelDep 2 (λ y → C [ x , y ])
isSetHomP2r = isOfHLevel→isOfHLevelDep 2 (λ a → isSetHom C {y = a})
involutiveOp : ∀ {C : Category ℓ ℓ'} → C ^op ^op ≡ C
involutiveOp = refl
module _ {C : Category ℓ ℓ'} where
lCatWhisker : {x y z : C .ob} (f : C [ x , y ]) (g g' : C [ y , z ]) (p : g ≡ g')
→ f ⋆⟨ C ⟩ g ≡ f ⋆⟨ C ⟩ g'
lCatWhisker f _ _ p = cong (_⋆_ C f) p
rCatWhisker : {x y z : C .ob} (f f' : C [ x , y ]) (g : C [ y , z ]) (p : f ≡ f')
→ f ⋆⟨ C ⟩ g ≡ f' ⋆⟨ C ⟩ g
rCatWhisker _ _ g p = cong (λ v → v ⋆⟨ C ⟩ g) p
idP : ∀ {x x'} {p : x ≡ x'} → C [ x , x' ]
idP {x} {x'} {p} = subst (λ v → C [ x , v ]) p (C .id)
seqP : ∀ {x y y' z} {p : y ≡ y'}
→ (f : C [ x , y ]) (g : C [ y' , z ])
→ C [ x , z ]
seqP {x} {_} {_} {z} {p} f g = f ⋆⟨ C ⟩ (subst (λ a → C [ a , z ]) (sym p) g)
seqP' : ∀ {x y y' z} {p : y ≡ y'}
→ (f : C [ x , y ]) (g : C [ y' , z ])
→ C [ x , z ]
seqP' {x} {_} {_} {z} {p} f g = subst (λ a → C [ x , a ]) p f ⋆⟨ C ⟩ g
seqP≡seqP' : ∀ {x y y' z} {p : y ≡ y'}
→ (f : C [ x , y ]) (g : C [ y' , z ])
→ seqP {p = p} f g ≡ seqP' {p = p} f g
seqP≡seqP' {x = x} {z = z} {p = p} f g i =
(toPathP {A = λ i' → C [ x , p i' ]} {f} refl i)
⋆⟨ C ⟩
(toPathP {A = λ i' → C [ p (~ i') , z ]} {x = g} (sym refl) (~ i))
seqP≡seq : ∀ {x y z}
→ (f : C [ x , y ]) (g : C [ y , z ])
→ seqP {p = refl} f g ≡ f ⋆⟨ C ⟩ g
seqP≡seq {y = y} {z} f g i = f ⋆⟨ C ⟩ toPathP {A = λ _ → C [ y , z ]} {x = g} refl (~ i)
lCatWhiskerP : {x y z y' : C .ob} {p : y ≡ y'}
→ (f : C [ x , y ]) (g : C [ y , z ]) (g' : C [ y' , z ])
→ (r : PathP (λ i → C [ p i , z ]) g g')
→ f ⋆⟨ C ⟩ g ≡ seqP {p = p} f g'
lCatWhiskerP {z = z} {p = p} f g g' r =
cong (λ v → f ⋆⟨ C ⟩ v) (sym (fromPathP (symP {A = λ i → C [ p (~ i) , z ]} r)))
rCatWhiskerP : {x y' y z : C .ob} {p : y' ≡ y}
→ (f' : C [ x , y' ]) (f : C [ x , y ]) (g : C [ y , z ])
→ (r : PathP (λ i → C [ x , p i ]) f' f)
→ f ⋆⟨ C ⟩ g ≡ seqP' {p = p} f' g
rCatWhiskerP f' f g r = cong (λ v → v ⋆⟨ C ⟩ g) (sym (fromPathP r))