2014-12-01 04:34:12 +00:00
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/-
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Copyright (c) 2014 Microsoft Corporation. All rights reserved.
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Released under Apache 2.0 license as described in the file LICENSE.
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Author: Leonardo de Moura
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-/
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prelude
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2015-06-06 23:57:14 +00:00
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import init.relation init.tactic
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2014-11-06 22:49:53 +00:00
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inductive acc {A : Type} (R : A → A → Prop) : A → Prop :=
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intro : ∀x, (∀ y, R y x → acc R y) → acc R x
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2014-11-07 18:18:24 +00:00
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namespace acc
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variables {A : Type} {R : A → A → Prop}
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definition inv {x y : A} (H₁ : acc R x) (H₂ : R y x) : acc R y :=
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acc.rec_on H₁ (λ x₁ ac₁ iH H₂, ac₁ y H₂) H₂
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2015-06-06 23:57:14 +00:00
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-- dependent elimination for acc
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protected definition drec [recursor]
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{C : Π (a : A), acc R a → Type}
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(h₁ : Π (x : A) (acx : Π (y : A), R y x → acc R y),
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(Π (y : A) (ryx : R y x), C y (acx y ryx)) → C x (acc.intro x acx))
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{a : A} (h₂ : acc R a) : C a h₂ :=
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begin
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refine acc.rec _ h₂ h₂,
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intro x acx ih h₂,
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exact h₁ x acx (λ y ryx, ih y ryx (acx y ryx))
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end
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2014-11-07 18:18:24 +00:00
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end acc
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inductive well_founded [class] {A : Type} (R : A → A → Prop) : Prop :=
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intro : (∀ a, acc R a) → well_founded R
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2014-11-06 22:49:53 +00:00
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2014-11-11 01:51:46 +00:00
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namespace well_founded
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2014-11-11 04:14:19 +00:00
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definition apply [coercion] {A : Type} {R : A → A → Prop} (wf : well_founded R) : ∀a, acc R a :=
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take a, well_founded.rec_on wf (λp, p) a
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2015-04-22 02:13:19 +00:00
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section
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2014-11-06 22:49:53 +00:00
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parameters {A : Type} {R : A → A → Prop}
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2015-04-22 02:13:19 +00:00
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local infix `≺`:50 := R
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2014-11-06 22:49:53 +00:00
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2014-11-07 18:18:24 +00:00
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hypothesis [Hwf : well_founded R]
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2014-11-06 22:49:53 +00:00
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2014-11-07 18:18:24 +00:00
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theorem recursion {C : A → Type} (a : A) (H : Πx, (Πy, y ≺ x → C y) → C x) : C a :=
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2014-11-06 22:49:53 +00:00
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acc.rec_on (Hwf a) (λ x₁ ac₁ iH, H x₁ iH)
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2014-11-22 21:10:38 +00:00
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theorem induction {C : A → Prop} (a : A) (H : ∀x, (∀y, y ≺ x → C y) → C x) : C a :=
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2014-11-07 18:18:24 +00:00
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recursion a H
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2014-11-06 22:49:53 +00:00
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variable {C : A → Type}
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variable F : Πx, (Πy, y ≺ x → C y) → C x
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definition fix_F (x : A) (a : acc R x) : C x :=
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acc.rec_on a (λ x₁ ac₁ iH, F x₁ iH)
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theorem fix_F_eq (x : A) (r : acc R x) :
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2014-11-07 18:18:24 +00:00
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fix_F F x r = F x (λ (y : A) (p : y ≺ x), fix_F F y (acc.inv r p)) :=
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2015-06-06 23:57:14 +00:00
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begin
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induction r using acc.drec,
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reflexivity -- proof is trivial due to proof irrelevance
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end
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2014-11-07 18:18:24 +00:00
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end
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variables {A : Type} {C : A → Type} {R : A → A → Prop}
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-- Well-founded fixpoint
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definition fix [Hwf : well_founded R] (F : Πx, (Πy, R y x → C y) → C x) (x : A) : C x :=
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fix_F F x (Hwf x)
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-- Well-founded fixpoint satisfies fixpoint equation
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theorem fix_eq [Hwf : well_founded R] (F : Πx, (Πy, R y x → C y) → C x) (x : A) :
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fix F x = F x (λy h, fix F y) :=
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2015-06-06 23:57:14 +00:00
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fix_F_eq F x (Hwf x)
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2014-11-06 22:49:53 +00:00
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end well_founded
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2014-11-11 01:51:46 +00:00
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2014-11-11 04:14:19 +00:00
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open well_founded
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2014-11-11 01:51:46 +00:00
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-- Empty relation is well-founded
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2014-11-19 01:32:22 +00:00
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definition empty.wf {A : Type} : well_founded empty_relation :=
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2014-11-11 01:51:46 +00:00
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well_founded.intro (λ (a : A),
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acc.intro a (λ (b : A) (lt : false), false.rec _ lt))
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-- Subrelation of a well-founded relation is well-founded
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2014-11-19 01:32:22 +00:00
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namespace subrelation
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2015-04-22 02:13:19 +00:00
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section
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2014-11-11 01:51:46 +00:00
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parameters {A : Type} {R Q : A → A → Prop}
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2014-11-19 01:32:22 +00:00
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parameters (H₁ : subrelation Q R)
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2014-11-11 01:51:46 +00:00
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parameters (H₂ : well_founded R)
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definition accessible {a : A} (ac : acc R a) : acc Q a :=
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2015-06-06 23:57:14 +00:00
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using H₁,
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begin
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induction ac with x ax ih, constructor,
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exact λ (y : A) (lt : Q y x), ih y (H₁ lt)
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end
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2014-11-11 01:51:46 +00:00
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definition wf : well_founded Q :=
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well_founded.intro (λ a, accessible (H₂ a))
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end
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2014-11-19 01:32:22 +00:00
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end subrelation
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2014-11-11 01:51:46 +00:00
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-- The inverse image of a well-founded relation is well-founded
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namespace inv_image
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2015-04-22 02:13:19 +00:00
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section
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2014-11-11 01:51:46 +00:00
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parameters {A B : Type} {R : B → B → Prop}
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parameters (f : A → B)
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parameters (H : well_founded R)
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2015-06-06 23:57:14 +00:00
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private definition acc_aux {b : B} (ac : acc R b) : ∀ x, f x = b → acc (inv_image R f) x :=
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begin
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induction ac with x acx ih,
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intro z e, constructor,
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intro y lt, subst x,
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exact ih (f y) lt y rfl
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end
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2014-11-11 01:51:46 +00:00
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definition accessible {a : A} (ac : acc R (f a)) : acc (inv_image R f) a :=
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2015-06-06 23:57:14 +00:00
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acc_aux ac a rfl
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2014-11-11 01:51:46 +00:00
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definition wf : well_founded (inv_image R f) :=
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well_founded.intro (λ a, accessible (H (f a)))
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end
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end inv_image
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2014-11-11 05:06:15 +00:00
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-- The transitive closure of a well-founded relation is well-founded
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namespace tc
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2015-04-22 02:13:19 +00:00
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section
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2014-11-11 05:06:15 +00:00
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parameters {A : Type} {R : A → A → Prop}
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2015-04-22 02:13:19 +00:00
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local notation `R⁺` := tc R
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2014-11-11 05:06:15 +00:00
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definition accessible {z} (ac: acc R z) : acc R⁺ z :=
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2015-06-06 23:57:14 +00:00
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begin
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induction ac with x acx ih,
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2015-10-07 23:44:47 +00:00
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constructor, intro y rel,
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induction rel with a b rab a b c rab rbc ih₁ ih₂,
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2015-06-06 23:57:14 +00:00
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{exact ih a rab},
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{exact acc.inv (ih₂ acx ih) rab}
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end
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2014-11-11 05:06:15 +00:00
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definition wf (H : well_founded R) : well_founded R⁺ :=
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well_founded.intro (λ a, accessible (H a))
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end
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end tc
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