/- Copyright (c) 2014 Microsoft Corporation. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Module: data.sum Authors: Leonardo de Moura, Jeremy Avigad The sum type, aka disjoint union. -/ import logic.connectives open inhabited decidable eq.ops namespace sum notation A ⊎ B := sum A B notation A + B := sum A B namespace low_precedence_plus reserve infixr `+`:25 -- conflicts with notation for addition infixr `+` := sum end low_precedence_plus variables {A B : Type} variables {a a₁ a₂ : A} {b b₁ b₂ : B} theorem inl_neq_inr : inl B a ≠ inr A b := assume H, no_confusion H theorem inl_inj : inl B a₁ = inl B a₂ → a₁ = a₂ := assume H, no_confusion H (λe, e) theorem inr_inj : inr A b₁ = inr A b₂ → b₁ = b₂ := assume H, no_confusion H (λe, e) protected definition is_inhabited_left [instance] : inhabited A → inhabited (A + B) := assume H : inhabited A, inhabited.mk (inl B (default A)) protected definition is_inhabited_right [instance] : inhabited B → inhabited (A + B) := assume H : inhabited B, inhabited.mk (inr A (default B)) protected definition has_eq_decidable [instance] : decidable_eq A → decidable_eq B → decidable_eq (A + B) := assume (H₁ : decidable_eq A) (H₂ : decidable_eq B), take s₁ s₂ : A + B, rec_on s₁ (take a₁, show decidable (inl B a₁ = s₂), from rec_on s₂ (take a₂, show decidable (inl B a₁ = inl B a₂), from decidable.rec_on (H₁ a₁ a₂) (assume Heq : a₁ = a₂, decidable.inl (Heq ▸ rfl)) (assume Hne : a₁ ≠ a₂, decidable.inr (mt inl_inj Hne))) (take b₂, have H₃ : (inl B a₁ = inr A b₂) ↔ false, from iff.intro inl_neq_inr (assume H₄, !false.rec H₄), show decidable (inl B a₁ = inr A b₂), from decidable_iff_equiv _ (iff.symm H₃))) (take b₁, show decidable (inr A b₁ = s₂), from rec_on s₂ (take a₂, have H₃ : (inr A b₁ = inl B a₂) ↔ false, from iff.intro (assume H₄, inl_neq_inr (H₄⁻¹)) (assume H₄, !false.rec H₄), show decidable (inr A b₁ = inl B a₂), from decidable_iff_equiv _ (iff.symm H₃)) (take b₂, show decidable (inr A b₁ = inr A b₂), from decidable.rec_on (H₂ b₁ b₂) (assume Heq : b₁ = b₂, decidable.inl (Heq ▸ rfl)) (assume Hne : b₁ ≠ b₂, decidable.inr (mt inr_inj Hne)))) end sum