lean2/library/data/prod/wf.lean

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-- Copyright (c) 2014 Microsoft Corporation. All rights reserved.
-- Released under Apache 2.0 license as described in the file LICENSE.
-- Author: Leonardo de Moura
import data.prod.decl logic.wf
open well_founded
namespace prod
section
variables {A B : Type}
variable (Ra : A → A → Prop)
variable (Rb : B → B → Prop)
-- Lexicographical order based on Ra and Rb
inductive lex : A × B → A × B → Prop :=
left : ∀{a₁ b₁} a₂ b₂, Ra a₁ a₂ → lex (a₁, b₁) (a₂, b₂),
right : ∀a {b₁ b₂}, Rb b₁ b₂ → lex (a, b₁) (a, b₂)
-- Relational product based on Ra and Rb
inductive rprod : A × B → A × B → Prop :=
intro : ∀{a₁ b₁ a₂ b₂}, Ra a₁ a₂ → Rb b₁ b₂ → rprod (a₁, b₁) (a₂, b₂)
end
context
parameters {A B : Type}
parameters {Ra : A → A → Prop} {Rb : B → B → Prop}
infix `≺`:50 := lex Ra Rb
definition lex.accessible {a} (aca : acc Ra a) (acb : ∀b, acc Rb b): ∀b, acc (lex Ra Rb) (a, b) :=
acc.rec_on aca
(λxa aca (iHa : ∀y, Ra y xa → ∀b, acc (lex Ra Rb) (y, b)),
λb, acc.rec_on (acb b)
(λxb acb
(iHb : ∀y, Rb y xb → acc (lex Ra Rb) (xa, y)),
acc.intro (xa, xb) (λp (lt : p ≺ (xa, xb)),
have aux : xa = xa → xb = xb → acc (lex Ra Rb) p, from
@lex.rec_on A B Ra Rb (λp₁ p₂, pr₁ p₂ = xa → pr₂ p₂ = xb → acc (lex Ra Rb) p₁)
p (xa, xb) lt
(λa₁ b₁ a₂ b₂ (H : Ra a₁ a₂) (eq₂ : a₂ = xa) (eq₃ : b₂ = xb),
show acc (lex Ra Rb) (a₁, b₁), from
have Ra₁ : Ra a₁ xa, from eq.rec_on eq₂ H,
iHa a₁ Ra₁ b₁)
(λa b₁ b₂ (H : Rb b₁ b₂) (eq₂ : a = xa) (eq₃ : b₂ = xb),
show acc (lex Ra Rb) (a, b₁), from
have Rb₁ : Rb b₁ xb, from eq.rec_on eq₃ H,
have eq₂' : xa = a, from eq.rec_on eq₂ rfl,
eq.rec_on eq₂' (iHb b₁ Rb₁)),
aux rfl rfl)))
-- The lexicographical order of well founded relations is well-founded
definition lex.wf (Ha : well_founded Ra) (Hb : well_founded Rb) : well_founded (lex Ra Rb) :=
well_founded.intro (λp, destruct p (λa b, lex.accessible (Ha a) (well_founded.apply Hb) b))
-- Relational product is a subrelation of the lex
definition rprod.sub_lex : ∀ a b, rprod Ra Rb a b → lex Ra Rb a b :=
λa b H, rprod.rec_on H (λ a₁ b₁ a₂ b₂ H₁ H₂, lex.left Rb a₂ b₂ H₁)
-- The relational product of well founded relations is well-founded
definition rprod.wf (Ha : well_founded Ra) (Hb : well_founded Rb) : well_founded (rprod Ra Rb) :=
subrel.wf (rprod.sub_lex) (lex.wf Ha Hb)
end
end prod