2014-12-22 20:33:29 +00:00
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/-
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2015-06-05 17:32:24 +00:00
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Copyright (c) 2015 Haitao Zhang. All rights reserved.
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2014-12-22 20:33:29 +00:00
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Released under Apache 2.0 license as described in the file LICENSE.
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2015-06-05 17:32:24 +00:00
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Author: Haitao Zhang
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2014-12-22 20:33:29 +00:00
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2015-06-05 17:32:24 +00:00
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Finite ordinal types.
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2014-12-22 20:33:29 +00:00
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-/
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2015-06-05 17:32:24 +00:00
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import data.list.basic data.finset.basic data.fintype.card
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open eq.ops nat function list finset fintype
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2014-11-18 07:44:57 +00:00
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2015-06-05 17:32:24 +00:00
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structure fin (n : nat) := (val : nat) (is_lt : val < n)
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attribute fin.val [coercion]
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definition less_than [reducible] := fin
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2014-11-18 07:44:57 +00:00
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namespace fin
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2015-06-05 17:32:24 +00:00
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section
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open decidable
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protected definition has_decidable_eq [instance] (n : nat) : ∀ (i j : fin n), decidable (i = j)
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| (mk ival ilt) (mk jval jlt) :=
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match nat.has_decidable_eq ival jval with
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| inl veq := inl (by substvars)
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| inr vne := inr (by intro h; injection h; contradiction)
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end
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end
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lemma dinj_lt (n : nat) : dinj (λ i, i < n) fin.mk :=
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take a1 a2 Pa1 Pa2 Pmkeq, fin.no_confusion Pmkeq (λ Pe Pqe, Pe)
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lemma val_mk (n i : nat) (Plt : i < n) : fin.val (fin.mk i Plt) = i := rfl
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definition upto [reducible] (n : nat) : list (fin n) :=
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dmap (λ i, i < n) fin.mk (list.upto n)
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lemma nodup_upto (n : nat) : nodup (upto n) :=
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dmap_nodup_of_dinj (dinj_lt n) (list.nodup_upto n)
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lemma mem_upto (n : nat) : ∀ (i : fin n), i ∈ upto n :=
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take i, fin.destruct i
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(take ival Piltn,
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assert Pin : ival ∈ list.upto n, from mem_upto_of_lt Piltn,
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mem_of_dmap Piltn Pin)
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lemma upto_zero : upto 0 = [] :=
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by rewrite [↑upto, list.upto_nil, dmap_nil]
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lemma map_val_upto (n : nat) : map fin.val (upto n) = list.upto n :=
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map_of_dmap_inv_pos (val_mk n) (@lt_of_mem_upto n)
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lemma length_upto (n : nat) : length (upto n) = n :=
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calc
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length (upto n) = length (list.upto n) : (map_val_upto n ▸ length_map fin.val (upto n))⁻¹
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... = n : list.length_upto n
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definition is_fintype [instance] (n : nat) : fintype (fin n) :=
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fintype.mk (upto n) (nodup_upto n) (mem_upto n)
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section pigeonhole
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open fintype
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lemma card_fin (n : nat) : card (fin n) = n := length_upto n
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theorem pigeonhole {n m : nat} (Pmltn : m < n) : ¬∃ f : fin n → fin m, injective f :=
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assume Pex, absurd Pmltn (not_lt_of_ge
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(calc
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n = card (fin n) : card_fin
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... ≤ card (fin m) : card_le_of_inj (fin n) (fin m) Pex
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... = m : card_fin))
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end pigeonhole
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definition zero (n : nat) : fin (succ n) :=
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mk 0 !zero_lt_succ
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variable {n : nat}
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theorem val_lt : ∀ i : fin n, val i < n
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| (mk v h) := h
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definition lift : fin n → Π m, fin (n + m)
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| (mk v h) m := mk v (lt_add_of_lt_right h m)
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theorem val_lift : ∀ (i : fin n) (m : nat), val i = val (lift i m)
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| (mk v h) m := rfl
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definition pred : fin n → fin n
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| (mk v h) := mk (nat.pred v) (pre_lt_of_lt h)
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lemma val_pred : ∀ (i : fin n), val (pred i) = nat.pred (val i)
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| (mk v h) := rfl
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lemma pred_zero : pred (zero n) = zero n :=
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rfl
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definition mk_pred (i : nat) (h : succ i < succ n) : fin n :=
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mk i (lt_of_succ_lt_succ h)
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definition succ : fin n → fin (succ n)
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| (mk v h) := mk (nat.succ v) (succ_lt_succ h)
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lemma val_succ : ∀ (i : fin n), val (succ i) = nat.succ (val i)
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| (mk v h) := rfl
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2015-01-08 01:46:47 +00:00
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2015-06-05 17:32:24 +00:00
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definition elim0 {C : Type} : fin 0 → C
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| (mk v h) := absurd h !not_lt_zero
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2014-11-18 07:44:57 +00:00
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end fin
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