lean2/library/standard/logic/axioms/piext.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
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import logic.classes.inhabited logic.connectives.cast
using inhabited
-- Pi extensionality
axiom piext {A : Type} {B B' : A → Type} {H : inhabited (Π x, B x)} :
(Π x, B x) = (Π x, B' x) → B = B'
theorem cast_app {A : Type} {B B' : A → Type} (H : (Π x, B x) = (Π x, B' x)) (f : Π x, B x)
(a : A) : cast H f a == f a :=
have Hi [fact] : inhabited (Π x, B x), from inhabited_mk f,
have Hb : B = B', from piext H,
cast_app' Hb f a
theorem hcongr_fun {A : Type} {B B' : A → Type} {f : Π x, B x} {f' : Π x, B' x} (a : A)
(H : f == f') : f a == f' a :=
have Hi [fact] : inhabited (Π x, B x), from inhabited_mk f,
have Hb : B = B', from piext (type_eq H),
hcongr_fun' a H Hb
theorem hcongr {A A' : Type} {B : A → Type} {B' : A' → Type}
{f : Π x, B x} {f' : Π x, B' x} {a : A} {a' : A'}
(Hff' : f == f') (Haa' : a == a') : f a == f' a' :=
have H1 : ∀ (B B' : A → Type) (f : Π x, B x) (f' : Π x, B' x), f == f' → f a == f' a, from
take B B' f f' e, hcongr_fun a e,
have H2 : ∀ (B : A → Type) (B' : A' → Type) (f : Π x, B x) (f' : Π x, B' x),
f == f' → f a == f' a', from hsubst Haa' H1,
H2 B B' f f' Hff'