/- Copyright (c) 2014 Microsoft Corporation. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Author: Leonardo de Moura, Jeremy Avigad -/ import logic.eq open inhabited decidable eq.ops namespace prod variables {A B : Type} {a₁ a₂ : A} {b₁ b₂ : B} {u : A × B} theorem pair_eq : a₁ = a₂ → b₁ = b₂ → (a₁, b₁) = (a₂, b₂) := assume H1 H2, H1 ▸ H2 ▸ rfl protected theorem eq {p₁ p₂ : prod A B} : pr₁ p₁ = pr₁ p₂ → pr₂ p₁ = pr₂ p₂ → p₁ = p₂ := destruct p₁ (take a₁ b₁, destruct p₂ (take a₂ b₂ H₁ H₂, pair_eq H₁ H₂)) protected definition is_inhabited [instance] [h₁ : inhabited A] [h₂ : inhabited B] : inhabited (prod A B) := inhabited.mk (default A, default B) protected definition has_decidable_eq [instance] [h₁ : decidable_eq A] [h₂ : decidable_eq B] : ∀ p₁ p₂ : A × B, decidable (p₁ = p₂) | (a, b) (a', b') := match h₁ a a' with | inl e₁ := match h₂ b b' with | inl e₂ := by left; congruence; repeat assumption | inr n₂ := by right; intro h; injection h; contradiction end | inr n₁ := by right; intro h; injection h; contradiction end definition swap {A : Type} : A × A → A × A | (a, b) := (b, a) theorem swap_swap {A : Type} : ∀ p : A × A, swap (swap p) = p | (a, b) := rfl theorem eq_of_swap_eq {A : Type} : ∀ p₁ p₂ : A × A, swap p₁ = swap p₂ → p₁ = p₂ := take p₁ p₂, assume seqs, have swap (swap p₁) = swap (swap p₂), from congr_arg swap seqs, by rewrite *swap_swap at this; exact this end prod