lean2/library/standard/decidable.lean
Leonardo de Moura 105c29b51e refactor(library/standard): use new coding style, rename bool.b0 and bool.b1 to bool.ff and bool.tt
Signed-off-by: Leonardo de Moura <leonardo@microsoft.com>
2014-07-28 19:59:38 -07:00

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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 logic
namespace decidable
inductive decidable (p : Prop) : Type :=
| inl : p → decidable p
| inr : ¬p → decidable p
theorem induction_on {p : Prop} {C : Prop} (H : decidable p) (H1 : p → C) (H2 : ¬p → C) : C :=
decidable_rec H1 H2 H
theorem em (p : Prop) (H : decidable p) : p ¬p :=
induction_on H (λ Hp, or_inl Hp) (λ Hnp, or_inr Hnp)
definition rec_on [inline] {p : Prop} {C : Type} (H : decidable p) (H1 : p → C) (H2 : ¬p → C) : C :=
decidable_rec H1 H2 H
theorem irrelevant {p : Prop} (d1 d2 : decidable p) : d1 = d2 :=
decidable_rec
(assume Hp1 : p, decidable_rec
(assume Hp2 : p, congr2 inl (refl Hp1)) -- using proof irrelevance for Prop
(assume Hnp2 : ¬p, absurd_elim (inl Hp1 = inr Hnp2) Hp1 Hnp2)
d2)
(assume Hnp1 : ¬p, decidable_rec
(assume Hp2 : p, absurd_elim (inr Hnp1 = inl Hp2) Hp2 Hnp1)
(assume Hnp2 : ¬p, congr2 inr (refl Hnp1)) -- using proof irrelevance for Prop
d2)
d1
theorem decidable_true [instance] : decidable true :=
inl trivial
theorem decidable_false [instance] : decidable false :=
inr not_false_trivial
theorem decidable_and [instance] {a b : Prop} (Ha : decidable a) (Hb : decidable b) : decidable (a ∧ b) :=
rec_on Ha
(assume Ha : a, rec_on Hb
(assume Hb : b, inl (and_intro Ha Hb))
(assume Hnb : ¬b, inr (and_not_right a Hnb)))
(assume Hna : ¬a, inr (and_not_left b Hna))
theorem decidable_or [instance] {a b : Prop} (Ha : decidable a) (Hb : decidable b) : decidable (a b) :=
rec_on Ha
(assume Ha : a, inl (or_inl Ha))
(assume Hna : ¬a, rec_on Hb
(assume Hb : b, inl (or_inr Hb))
(assume Hnb : ¬b, inr (or_not_intro Hna Hnb)))
theorem decidable_not [instance] {a : Prop} (Ha : decidable a) : decidable (¬a) :=
rec_on Ha
(assume Ha, inr (not_not_intro Ha))
(assume Hna, inl Hna)
theorem decidable_iff [instance] {a b : Prop} (Ha : decidable a) (Hb : decidable b) : decidable (a ↔ b) :=
rec_on Ha
(assume Ha, rec_on Hb
(assume Hb : b, inl (iff_intro (assume H, Hb) (assume H, Ha)))
(assume Hnb : ¬b, inr (assume H : a ↔ b, absurd (iff_mp_left H Ha) Hnb)))
(assume Hna, rec_on Hb
(assume Hb : b, inr (assume H : a ↔ b, absurd (iff_mp_right H Hb) Hna))
(assume Hnb : ¬b, inl (iff_intro (assume Ha, absurd_elim b Ha Hna) (assume Hb, absurd_elim a Hb Hnb))))
theorem decidable_implies [instance] {a b : Prop} (Ha : decidable a) (Hb : decidable b) : decidable (a → b) :=
rec_on Ha
(assume Ha : a, rec_on Hb
(assume Hb : b, inl (assume H, Hb))
(assume Hnb : ¬b, inr (assume H : a → b, absurd (H Ha) Hnb)))
(assume Hna : ¬a, inl (assume Ha, absurd_elim b Ha Hna))