Prove that 'to' preserves equality

Signed-off-by: Danila Fedorin <danila.fedorin@gmail.com>
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Danila Fedorin 2024-02-25 18:43:54 -08:00
parent 53a08b8f79
commit 3ad7db738a

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@ -136,3 +136,23 @@ module IterProdIsomorphism where
rewrite Map-functional {m = m₂} k,v₂∈fm₂ k,v₁'∈fm₂ rewrite Map-functional {m = m₂} k,v₂∈fm₂ k,v₁'∈fm₂
rewrite from-rest fm₁ rewrite from-rest fm₂ rewrite from-rest fm₁ rewrite from-rest fm₂
= (≈₂-trans fv₁≈v₁ (≈₂-trans v₁≈v₁' (≈₂-sym fv₂≈v₂)) , from-preserves-≈ (pop fm₁) (pop fm₂) (pop-≈ fm₁ fm₂ fm₁≈fm₂)) = (≈₂-trans fv₁≈v₁ (≈₂-trans v₁≈v₁' (≈₂-sym fv₂≈v₂)) , from-preserves-≈ (pop fm₁) (pop fm₂) (pop-≈ fm₁ fm₂ fm₁≈fm₂))
to-preserves-≈ : {ks : List A} (uks : Unique ks) (ip₁ ip₂ : IterProd (length ks)) _≈ⁱᵖ_ {ks} ip₁ ip₂ to uks ip₁ ≈ᵐ to uks ip₂
to-preserves-≈ {[]} empty tt tt _ = ((λ k v ()), (λ k v ()))
to-preserves-≈ {k ks'} uks@(push k≢ks' uks') ip₁@(v₁ , rest₁) ip₂@(v₂ , rest₂) (v₁≈v₂ , rest₁≈rest₂) = (fm₁⊆fm₂ , fm₂⊆fm₁)
where
fm₁⊆fm₂ : to uks ip₁ ⊆ᵐ to uks ip₂
fm₁⊆fm₂ k v k,v∈kvs₁
with ((kvs'₁ , ukvs'₁) , kvs'₁≡ks') to uks' rest₁ in p₁
with ((kvs'₂ , ukvs'₂) , kvs'₂≡ks') to uks' rest₂ in p₂
with k,v∈kvs₁
... | here refl = (v₂ , (v₁≈v₂ , here refl))
... | there k,v∈kvs'₁ with refl p₁ with refl p₂ = let (v' , (v≈v' , k,v'∈kvs₁)) = proj₁ (to-preserves-≈ uks' rest₁ rest₂ rest₁≈rest₂) k v k,v∈kvs'₁ in (v' , (v≈v' , there k,v'∈kvs₁))
fm₂⊆fm₁ : to uks ip₂ ⊆ᵐ to uks ip₁
fm₂⊆fm₁ k v k,v∈kvs₂
with ((kvs'₁ , ukvs'₁) , kvs'₁≡ks') to uks' rest₁ in p₁
with ((kvs'₂ , ukvs'₂) , kvs'₂≡ks') to uks' rest₂ in p₂
with k,v∈kvs₂
... | here refl = (v₁ , (IsLattice.≈-sym lB v₁≈v₂ , here refl))
... | there k,v∈kvs'₂ with refl p₁ with refl p₂ = let (v' , (v≈v' , k,v'∈kvs₂)) = proj₂ (to-preserves-≈ uks' rest₁ rest₂ rest₁≈rest₂) k v k,v∈kvs'₂ in (v' , (v≈v' , there k,v'∈kvs₂))