2015-05-08 03:38:55 +00:00
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/-
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Copyright (c) 2015 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: Jeremy Avigad
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Cardinality calculations for finite sets.
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-/
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2015-05-17 09:06:10 +00:00
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import .to_set .bigops data.set.function data.nat.power data.nat.bigops
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2015-05-08 03:38:55 +00:00
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open nat eq.ops
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namespace finset
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2015-05-10 10:07:03 +00:00
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variables {A B : Type}
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variables [deceqA : decidable_eq A] [deceqB : decidable_eq B]
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include deceqA
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2015-05-08 03:38:55 +00:00
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theorem card_add_card (s₁ s₂ : finset A) : card s₁ + card s₂ = card (s₁ ∪ s₂) + card (s₁ ∩ s₂) :=
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2015-05-19 22:56:51 +00:00
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begin
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induction s₂ with s₂ a ans2 IH,
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show card s₁ + card (∅:finset A) = card (s₁ ∪ ∅) + card (s₁ ∩ ∅),
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by rewrite [union_empty, card_empty, inter_empty],
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show card s₁ + card (insert a s₂) = card (s₁ ∪ (insert a s₂)) + card (s₁ ∩ (insert a s₂)),
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2015-05-08 03:38:55 +00:00
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from decidable.by_cases
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(assume as1 : a ∈ s₁,
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assert H : a ∉ s₁ ∩ s₂, from assume H', ans2 (mem_of_mem_inter_right H'),
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begin
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rewrite [card_insert_of_not_mem ans2, union.comm, -insert_union, union.comm],
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rewrite [insert_union, insert_eq_of_mem as1, insert_eq, inter.distrib_left, inter.comm],
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rewrite [singleton_inter_of_mem as1, -insert_eq, card_insert_of_not_mem H, -*add.assoc],
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rewrite IH
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end)
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(assume ans1 : a ∉ s₁,
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assert H : a ∉ s₁ ∪ s₂, from assume H',
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or.elim (mem_or_mem_of_mem_union H') (assume as1, ans1 as1) (assume as2, ans2 as2),
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begin
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rewrite [card_insert_of_not_mem ans2, union.comm, -insert_union, union.comm],
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rewrite [card_insert_of_not_mem H, insert_eq, inter.distrib_left, inter.comm],
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rewrite [singleton_inter_of_not_mem ans1, empty_union, add.right_comm],
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rewrite [-add.assoc, IH]
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2015-05-19 22:56:51 +00:00
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end)
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end
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2015-05-08 03:38:55 +00:00
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theorem card_union (s₁ s₂ : finset A) : card (s₁ ∪ s₂) = card s₁ + card s₂ - card (s₁ ∩ s₂) :=
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calc
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card (s₁ ∪ s₂) = card (s₁ ∪ s₂) + card (s₁ ∩ s₂) - card (s₁ ∩ s₂) : add_sub_cancel
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... = card s₁ + card s₂ - card (s₁ ∩ s₂) : card_add_card
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2015-05-17 09:06:10 +00:00
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theorem card_union_of_disjoint {s₁ s₂ : finset A} (H : s₁ ∩ s₂ = ∅) :
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2015-05-08 03:38:55 +00:00
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card (s₁ ∪ s₂) = card s₁ + card s₂ :=
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2015-05-17 09:06:10 +00:00
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by rewrite [card_union, H]
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2015-05-08 03:38:55 +00:00
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theorem card_le_card_of_subset {s₁ s₂ : finset A} (H : s₁ ⊆ s₂) : card s₁ ≤ card s₂ :=
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2015-05-17 09:06:10 +00:00
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have H1 : s₁ ∩ (s₂ \ s₁) = ∅,
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from inter_eq_empty (take x, assume H1 H2, not_mem_of_mem_diff H2 H1),
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2015-05-08 03:38:55 +00:00
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calc
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card s₂ = card (s₁ ∪ (s₂ \ s₁)) : union_diff_cancel H
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... = card s₁ + card (s₂ \ s₁) : card_union_of_disjoint H1
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... ≥ card s₁ : le_add_right
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2015-05-10 10:07:03 +00:00
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section card_image
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open set
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include deceqB
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2015-05-19 22:56:51 +00:00
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theorem card_image_eq_of_inj_on {f : A → B} {s : finset A} (H1 : inj_on f (ts s)) : card (image f s) = card s :=
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begin
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induction s with t a H IH,
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{ rewrite [card_empty] },
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{ have H2 : ts t ⊆ ts (insert a t), by rewrite [-subset_eq_to_set_subset]; apply subset_insert,
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have H3 : card (image f t) = card t, from IH (inj_on_of_inj_on_of_subset H1 H2),
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have H4 : f a ∉ image f t,
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2015-05-10 10:07:03 +00:00
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proof
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assume H5 : f a ∈ image f t,
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2015-05-11 16:14:48 +00:00
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obtain x (H6l : x ∈ t) (H6r : f x = f a), from exists_of_mem_image H5,
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have H7 : x = a, from H1 (mem_insert_of_mem _ H6l) !mem_insert H6r,
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show false, from H (H7 ▸ H6l)
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2015-05-10 10:07:03 +00:00
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qed,
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2015-05-19 22:56:51 +00:00
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calc
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card (image f (insert a t)) = card (insert (f a) (image f t)) : image_insert
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... = card (image f t) + 1 : card_insert_of_not_mem H4
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... = card t + 1 : H3
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... = card (insert a t) : card_insert_of_not_mem H
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}
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end
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2015-05-10 10:07:03 +00:00
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end card_image
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2015-05-17 09:06:10 +00:00
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theorem Sum_const_eq_card_mul (s : finset A) (n : nat) : (∑ x ∈ s, n) = card s * n :=
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begin
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induction s with s' a H IH,
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rewrite [Sum_empty, card_empty, zero_mul],
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rewrite [Sum_insert_of_not_mem _ H, IH, card_insert_of_not_mem H, add.comm,
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mul.right_distrib, one_mul]
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end
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2015-05-17 09:06:10 +00:00
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theorem Sum_one_eq_card (s : finset A) : (∑ x ∈ s, (1 : nat)) = card s :=
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eq.trans !Sum_const_eq_card_mul !mul_one
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section deceqB
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include deceqB
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theorem card_Union_of_disjoint (s : finset A) (f : A → finset B) :
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(∀{a₁ a₂}, a₁ ∈ s → a₂ ∈ s → a₁ ≠ a₂ → f a₁ ∩ f a₂ = ∅) →
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card (⋃ x ∈ s, f x) = ∑ x ∈ s, card (f x) :=
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finset.induction_on s
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(assume H, by rewrite [Union_empty, Sum_empty, card_empty])
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(take s' a, assume H : a ∉ s',
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assume IH,
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assume H1 : ∀ {a₁ a₂ : A}, a₁ ∈ insert a s' → a₂ ∈ insert a s' → a₁ ≠ a₂ → f a₁ ∩ f a₂ = ∅,
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have H2 : ∀ a₁ a₂ : A, a₁ ∈ s' → a₂ ∈ s' → a₁ ≠ a₂ → f a₁ ∩ f a₂ = ∅, from
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take a₁ a₂, assume H3 H4 H5,
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H1 (!mem_insert_of_mem H3) (!mem_insert_of_mem H4) H5,
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assert H6 : card (⋃ (x : A) ∈ s', f x) = ∑ (x : A) ∈ s', card (f x), from IH H2,
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have H7 : ∀ x, x ∈ s' → f a ∩ f x = ∅, from
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take x, assume xs',
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have anex : a ≠ x, from assume aex, (eq.subst aex H) xs',
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H1 !mem_insert (!mem_insert_of_mem xs') anex,
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assert H8 : f a ∩ (⋃ (x : A) ∈ s', f x) = ∅, from
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calc
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2015-05-18 22:45:23 +00:00
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f a ∩ (⋃ (x : A) ∈ s', f x) = (⋃ (x : A) ∈ s', f a ∩ f x) : inter_Union
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... = (⋃ (x : A) ∈ s', ∅) : Union_ext H7
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2015-05-17 09:06:10 +00:00
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... = ∅ : Union_empty',
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by rewrite [Union_insert_of_not_mem _ H, Sum_insert_of_not_mem _ H,
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card_union_of_disjoint H8, H6])
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end deceqB
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2015-05-08 03:38:55 +00:00
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end finset
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