/- Copyright (c) 2015 Floris van Doorn. All rights reserved. Released under Apache 2.0 license as described in the file LICENSE. Module: hit.circle Authors: Floris van Doorn Declaration of the n-spheres -/ import .suspension open eq nat suspension bool is_trunc unit /- We can define spheres with the following possible indices: - trunc_index (defining S^-2 = S^-1 = empty) - nat (forgetting that S^1 = empty) - nat, but counting wrong (S^0 = empty, S^1 = bool, ...) - some new type "integers >= -1" We choose the last option here. -/ /- Sphere levels -/ inductive sphere_index : Type₀ := | minus_one : sphere_index | succ : sphere_index → sphere_index namespace sphere_index /- notation for sphere_index is -1, 0, 1, ... from 0 and up this comes from a coercion from num to sphere_index (via nat) -/ postfix `.+1`:(max+1) := sphere_index.succ postfix `.+2`:(max+1) := λ(n : sphere_index), (n .+1 .+1) notation `-1` := minus_one export [coercions] nat definition add (n m : sphere_index) : sphere_index := sphere_index.rec_on m n (λ k l, l .+1) definition leq (n m : sphere_index) : Type₁ := sphere_index.rec_on n (λm, unit) (λ n p m, sphere_index.rec_on m (λ p, empty) (λ m q p, p m) p) m infix `+1+`:65 := sphere_index.add notation x <= y := sphere_index.leq x y notation x ≤ y := sphere_index.leq x y definition succ_le_succ {n m : sphere_index} (H : n ≤ m) : n.+1 ≤ m.+1 := H definition le_of_succ_le_succ {n m : sphere_index} (H : n.+1 ≤ m.+1) : n ≤ m := H definition minus_two_le (n : sphere_index) : -1 ≤ n := star definition empty_of_succ_le_minus_two {n : sphere_index} (H : n .+1 ≤ -1) : empty := H definition of_nat [coercion] [reducible] (n : nat) : sphere_index := nat.rec_on n (-1.+1) (λ n k, k.+1) definition trunc_index_of_sphere_index [coercion] [reducible] (n : sphere_index) : trunc_index := sphere_index.rec_on n -1 (λ n k, k.+1) end sphere_index open sphere_index equiv definition sphere : sphere_index → Type₀ | -1 := empty | n.+1 := suspension (sphere n) namespace sphere namespace ops abbreviation S := sphere end ops definition bool_of_sphere [reducible] : sphere 0 → bool := suspension.rec tt ff (λx, empty.elim _ x) definition sphere_of_bool [reducible] : bool → sphere 0 | tt := !north | ff := !south definition sphere_equiv_bool : sphere 0 ≃ bool := equiv.MK bool_of_sphere sphere_of_bool sorry --idp sorry --idp end sphere