------------------------------------------------------------------------
-- The Agda standard library
--
-- Some theory for Semigroup
------------------------------------------------------------------------
{-# OPTIONS --cubical-compatible --safe #-}
open import Algebra using (Semigroup)
module Algebra.Properties.Semigroup {a ℓ} (S : Semigroup a ℓ) where
open import Data.Product.Base using (_,_)
open Semigroup S
using (Carrier; _∙_; _≈_; setoid; trans ; refl; sym; assoc; ∙-cong; ∙-congˡ; ∙-congʳ)
open import Algebra.Definitions _≈_
using (Alternative; LeftAlternative; RightAlternative; Flexible)
private
variable
u v w x y z : Carrier
x∙yz≈xy∙z : ∀ x y z → x ∙ (y ∙ z) ≈ (x ∙ y) ∙ z
x∙yz≈xy∙z x y z = sym (assoc x y z)
alternativeˡ : LeftAlternative _∙_
alternativeˡ x y = assoc x x y
alternativeʳ : RightAlternative _∙_
alternativeʳ x y = sym (assoc x y y)
alternative : Alternative _∙_
alternative = alternativeˡ , alternativeʳ
flexible : Flexible _∙_
flexible x y = assoc x y x
module _ (uv≈w : u ∙ v ≈ w) where
uv≈w⇒xu∙v≈xw : ∀ x → (x ∙ u) ∙ v ≈ x ∙ w
uv≈w⇒xu∙v≈xw x = trans (assoc x u v) (∙-congˡ uv≈w)
uv≈w⇒u∙vx≈wx : ∀ x → u ∙ (v ∙ x) ≈ w ∙ x
uv≈w⇒u∙vx≈wx x = trans (sym (assoc u v x)) (∙-congʳ uv≈w)
uv≈w⇒u[vx∙y]≈w∙xy : ∀ x y → u ∙ ((v ∙ x) ∙ y) ≈ w ∙ (x ∙ y)
uv≈w⇒u[vx∙y]≈w∙xy x y = trans (∙-congˡ (assoc v x y)) (uv≈w⇒u∙vx≈wx (x ∙ y))
uv≈w⇒x[uv∙y]≈x∙wy : ∀ x y → x ∙ (u ∙ (v ∙ y)) ≈ x ∙ (w ∙ y)
uv≈w⇒x[uv∙y]≈x∙wy x y = ∙-congˡ (uv≈w⇒u∙vx≈wx y)
uv≈w⇒[x∙yu]v≈x∙yw : ∀ x y → (x ∙ (y ∙ u)) ∙ v ≈ x ∙ (y ∙ w)
uv≈w⇒[x∙yu]v≈x∙yw x y = trans (assoc x (y ∙ u) v) (∙-congˡ (uv≈w⇒xu∙v≈xw y))
uv≈w⇒[xu∙v]y≈x∙wy : ∀ x y → ((x ∙ u) ∙ v) ∙ y ≈ x ∙ (w ∙ y)
uv≈w⇒[xu∙v]y≈x∙wy x y = trans (∙-congʳ (uv≈w⇒xu∙v≈xw x)) (assoc x w y)
uv≈w⇒[xy∙u]v≈x∙yw : ∀ x y → ((x ∙ y) ∙ u) ∙ v ≈ x ∙ (y ∙ w)
uv≈w⇒[xy∙u]v≈x∙yw x y = trans (∙-congʳ (assoc x y u)) (uv≈w⇒[x∙yu]v≈x∙yw x y )
module _ (uv≈w : u ∙ v ≈ w) where
uv≈w⇒xu∙vy≈x∙wy : ∀ x y → (x ∙ u) ∙ (v ∙ y) ≈ x ∙ (w ∙ y)
uv≈w⇒xu∙vy≈x∙wy x y = uv≈w⇒xu∙v≈xw (uv≈w⇒u∙vx≈wx uv≈w y) x
uv≈w⇒xy≈z⇒u[vx∙y]≈wz : ∀ x y → x ∙ y ≈ z → u ∙ ((v ∙ x) ∙ y) ≈ w ∙ z
uv≈w⇒xy≈z⇒u[vx∙y]≈wz x y xy≈z = trans (∙-congˡ (uv≈w⇒xu∙v≈xw xy≈z v)) (uv≈w⇒u∙vx≈wx uv≈w _)
uv≈w⇒x∙wy≈x∙[u∙vy] : x ∙ (w ∙ y) ≈ x ∙ (u ∙ (v ∙ y))
uv≈w⇒x∙wy≈x∙[u∙vy] = sym (uv≈w⇒x[uv∙y]≈x∙wy uv≈w _ _)
module _ u v w x where
[uv∙w]x≈u[vw∙x] : ((u ∙ v) ∙ w) ∙ x ≈ u ∙ ((v ∙ w) ∙ x)
[uv∙w]x≈u[vw∙x] = uv≈w⇒[xu∙v]y≈x∙wy refl u x
[uv∙w]x≈u[v∙wx] : ((u ∙ v) ∙ w) ∙ x ≈ u ∙ (v ∙ (w ∙ x))
[uv∙w]x≈u[v∙wx] = uv≈w⇒[xy∙u]v≈x∙yw refl u v
[u∙vw]x≈uv∙wx : (u ∙ (v ∙ w)) ∙ x ≈ (u ∙ v) ∙ (w ∙ x)
[u∙vw]x≈uv∙wx = trans (sym (∙-congʳ (assoc u v w))) (assoc (u ∙ v) w x)
[u∙vw]x≈u[v∙wx] : (u ∙ (v ∙ w)) ∙ x ≈ u ∙ (v ∙ (w ∙ x))
[u∙vw]x≈u[v∙wx] = uv≈w⇒[x∙yu]v≈x∙yw refl u v
uv∙wx≈u[vw∙x] : (u ∙ v) ∙ (w ∙ x) ≈ u ∙ ((v ∙ w) ∙ x)
uv∙wx≈u[vw∙x] = uv≈w⇒xu∙vy≈x∙wy refl u x
module _ (uv≈wx : u ∙ v ≈ w ∙ x) where
uv≈wx⇒yu∙v≈yw∙x : ∀ y → (y ∙ u) ∙ v ≈ (y ∙ w) ∙ x
uv≈wx⇒yu∙v≈yw∙x y = trans (uv≈w⇒xu∙v≈xw uv≈wx y) (sym (assoc y w x))
uv≈wx⇒u∙vy≈w∙xy : ∀ y → u ∙ (v ∙ y) ≈ w ∙ (x ∙ y)
uv≈wx⇒u∙vy≈w∙xy y = trans (uv≈w⇒u∙vx≈wx uv≈wx y) (assoc w x y)
uv≈wx⇒yu∙vz≈yw∙xz : ∀ y z → (y ∙ u) ∙ (v ∙ z) ≈ (y ∙ w) ∙ (x ∙ z)
uv≈wx⇒yu∙vz≈yw∙xz y z = trans (uv≈w⇒xu∙v≈xw (uv≈wx⇒u∙vy≈w∙xy z) y) (sym (assoc y w (x ∙ z)))
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