------------------------------------------------------------------------ -- The Agda standard library -- -- Sum combinators for propositional equality preserving functions ------------------------------------------------------------------------ {-# OPTIONS --cubical-compatible --safe #-} module Data.Sum.Function.Propositional where open import Data.Sum.Base open import Data.Sum.Function.Setoid open import Data.Sum.Relation.Binary.Pointwise using (Pointwise-≡↔≡) open import Function.Equivalence as Eq using (_⇔_; module Equivalence) open import Function.Injection as Inj using (_↣_; module Injection) open import Function.Inverse as Inv using (_↔_; module Inverse) open import Function.LeftInverse as LeftInv using (_↞_; _LeftInverseOf_; module LeftInverse) open import Function.Related open import Function.Surjection as Surj using (_↠_; module Surjection) ------------------------------------------------------------------------ -- Combinators for various function types module _ {a b c d} {A : Set a} {B : Set b} {C : Set c} {D : Set d} where _⊎-⇔_ : A ⇔ B → C ⇔ D → (A ⊎ C) ⇔ (B ⊎ D) _⊎-⇔_ A⇔B C⇔D = Inverse.equivalence (Pointwise-≡↔≡ B D) ⟨∘⟩ (A⇔B ⊎-equivalence C⇔D) ⟨∘⟩ Eq.sym (Inverse.equivalence (Pointwise-≡↔≡ A C)) where open Eq using () renaming (_∘_ to _⟨∘⟩_) _⊎-↣_ : A ↣ B → C ↣ D → (A ⊎ C) ↣ (B ⊎ D) _⊎-↣_ A↣B C↣D = Inverse.injection (Pointwise-≡↔≡ B D) ⟨∘⟩ (A↣B ⊎-injection C↣D) ⟨∘⟩ Inverse.injection (Inv.sym (Pointwise-≡↔≡ A C)) where open Inj using () renaming (_∘_ to _⟨∘⟩_) _⊎-↞_ : A ↞ B → C ↞ D → (A ⊎ C) ↞ (B ⊎ D) _⊎-↞_ A↞B C↞D = Inverse.left-inverse (Pointwise-≡↔≡ B D) ⟨∘⟩ (A↞B ⊎-left-inverse C↞D) ⟨∘⟩ Inverse.left-inverse (Inv.sym (Pointwise-≡↔≡ A C)) where open LeftInv using () renaming (_∘_ to _⟨∘⟩_) _⊎-↠_ : A ↠ B → C ↠ D → (A ⊎ C) ↠ (B ⊎ D) _⊎-↠_ A↠B C↠D = Inverse.surjection (Pointwise-≡↔≡ B D) ⟨∘⟩ (A↠B ⊎-surjection C↠D) ⟨∘⟩ Inverse.surjection (Inv.sym (Pointwise-≡↔≡ A C)) where open Surj using () renaming (_∘_ to _⟨∘⟩_) _⊎-↔_ : A ↔ B → C ↔ D → (A ⊎ C) ↔ (B ⊎ D) _⊎-↔_ A↔B C↔D = Pointwise-≡↔≡ B D ⟨∘⟩ (A↔B ⊎-inverse C↔D) ⟨∘⟩ Inv.sym (Pointwise-≡↔≡ A C) where open Inv using () renaming (_∘_ to _⟨∘⟩_) module _ {a b c d} {A : Set a} {B : Set b} {C : Set c} {D : Set d} where _⊎-cong_ : ∀ {k} → A ∼[ k ] B → C ∼[ k ] D → (A ⊎ C) ∼[ k ] (B ⊎ D) _⊎-cong_ {implication} = map _⊎-cong_ {reverse-implication} = λ f g → lam (map (app-← f) (app-← g)) _⊎-cong_ {equivalence} = _⊎-⇔_ _⊎-cong_ {injection} = _⊎-↣_ _⊎-cong_ {reverse-injection} = λ f g → lam (app-↢ f ⊎-↣ app-↢ g) _⊎-cong_ {left-inverse} = _⊎-↞_ _⊎-cong_ {surjection} = _⊎-↠_ _⊎-cong_ {bijection} = _⊎-↔_